NOTE Pathology
The Presence of Disease-Associated Prion Protein in Skeletal Muscle of
Cattle Infected with Classical Bovine Spongiform Encephalopathy
Hiroyuki OKADA1)*, Kohtaro MIYAZAWA1), Shigeo FUKUDA2), Yoshifumi
IWAMARU1), Morikazu IMAMURA1), Kentaro MASUJIN1), Yuichi MATSUURA1), Takashi
FUJII2), Kei FUJII2), Soichi KAGEYAMA2), Miyako YOSHIOKA1), Yuichi MURAYAMA1)
and Takashi YOKOYAMA1)
1)National Institute of Animal Health, National Agriculture and Food
Research Organization, Tsukuba, Ibaraki 305–0856, Japan 2)Hokkaido Animal
Research Center, Hokkaido Research Organization, Shintoku, Hokkaido 081–0038,
Japan (Received 16 July 2013/Accepted 13 August 2013/Published online in J-STAGE
27 August 2013)
ABSTRACT. The aim of this study was to investigate the presence of
disease-associated prion protein (PrPSc) in the skeletal muscle of cattle
infected with classical bovine spongiform encephalopathy (C-BSE). The study was
carried out systematically in 12 different muscle samples from 43 (3 field and
40 experimental) cases of C-BSE; however, muscle spindles were not available in
many of these cases. Therefore, analysis became restricted to a total of 31
muscles in 23 cattle. Even after this restriction, low levels of PrPSc were
detected in the muscle spindles of the masseter, intercostal, triceps brachii,
psoas major, quadriceps femoris and semitendinosus muscles from 3 field and 6
experimental clinical-stage cases. The present data indicate that small amounts
of PrPSc are detectable by immunohistochemistry in the skeletal muscles of
animals terminally affected with C-BSE.
SNIP...
31. No muscle spindles were detected in the gluteus medius muscle,
diaphragm or tongue. Even after this restriction, the global frequency of
immunolabeled PrPSc detection was 9 (3 natural and 6 experimental) of 23 cases.
Positive immunolabeling was detected in 16 of the 31 muscle samples containing
spindles, including the masseter muscle (4/9; number of positive samples/number
of detected samples), intercostal muscle (2/5), triceps brachii muscle (4/4),
psoas major muscle (1/2), quadriceps femoris muscle (1/1) and semitendinosus
muscle (3/3). In experimentally challenged animals, PrPSc detection was
associated with clinical symptoms, but not with preclinical status. No positive
spindles were observed in the 14 preclinical and 4 control animals. By WB
analysis, a very weak signal for PrPSc was detected in 2 different muscle
samples from naturally (masseter muscle from BSE/JP17) and experimentally
(intercostal muscle from ID#5413) C-BSE-infected animals (Fig. 2). However, a
detectable PrPSc signal was obtained from only 1 of 3 tissue pieces; adjacent
locations were used for PrPSc immunohistochemistry within the same tissue in
each case.
The results of this study indicate that low amounts of PrPSc are deposited
in the muscle spindles of C-BSE-infected cattle. To the best of our knowledge,
this is the first, or at least the most comprehensive, report on the
localization of PrPSc by IHC in skeletal muscles of C-BSE affected cattle.
Localization of PrPSc in the muscle spindles of skeletal muscles in the study
was consistent with that of atypical BSE in cattle [8] and natural scrapie in
sheep [1]. In addition, immunolabeled PrPSc localized at the terminal nerve
endings of myofibrils has been reported in hamsters with scrapie and [16] in
rodent and primate models with C-BSE and CJD, respectively [6, 9, 17].
PrPC is primarily expressed in neural tissues, but is also distributed in
non-neural organs and tissues, such as the spleen, lymph node, heart, skeletal
muscle, kidney, uterus, adrenal gland, intestine and mammary gland [7]. In
muscle tissues, PrPC is located primarily at the neuromuscular junction [5].
Somatic motor neurons known as efferent nerve fibers arise from the ventral horn
of the spinal cord and innervate skeletal muscle tissues at the neuromuscular
junction via alpha motor neurons or intrafusal muscle fibers of the muscle
spindles via gamma motor neurons. In addition, type Ia afferent sensory fibers
connect to the muscle spindles. However, there are no precedents for a primary
role for sensory neural pathways in the pathogenesis of BSE [10]. PrPSc
accumulation in the peripheral nervous tissues may be attributed to a high
degree of neurotropism in C-BSE [3, 10]. Our results indicate the centrifugal
spread of the infectious agent from central nervous tissues through the somatic
motor and/or sensory pathways to the muscle spindles of various muscle tissues
during the clinical stage of the disease in both naturally occurring and
experimentally-induced C-BSE animals.
Although we did not attempt a mouse bioassay to demonstrate infectivity in
skeletal muscles, small amounts of PrPSc were detected in the skeletal muscles
of C-BSE cattle in the clinical stage of the disease. The study suggests that it
is important to investigate the presence of PrPSc in muscle tissues of
C-BSE-affected cattle using immunohistochemical analysis.
This study was supported by Grants-in-Aid from the BSE and other Prion
Disease Control Project of the Ministry of Agriculture, Forestry and Fisheries
of Japan and from the TSE research of the Ministry of Health, Labor and Welfare
of Japan.
SNIP...
REFERENCES
KEY WORDS: BSE, muscle spindle, prion, skeletal muscle.
doi: 10.1292/jvms.13-0363; J. Vet. Med. Sci. 76(1): 103–107, 2014
Envt.07:
Pathological Prion Protein (PrPTSE) in Skeletal Muscles of Farmed and Free
Ranging White-Tailed Deer Infected with Chronic Wasting Disease
Martin L. Daus,1,† Johanna Breyer,2 Katjs Wagenfuehr,1 Wiebke Wemheuer,2
Achim Thomzig,1 Walter Schulz-Schaeffer2 and Michael Beekes1 1Robert Koch
Institut; P24 TSE; Berlin, Germany; 2Department of Neuropathology, Prion and
Dementia Research Unit, University Medical Center Göttingen; Göttingen, Germany
†Presenting author; Email: dausm@rki.de
Chronic wasting disease (CWD) is a contagious, rapidly spreading
transmissible spongiform encephalopathy (TSE) occurring in cervids in North
America. Despite efficient horizontal transmission of CWD among cervids natural
transmission of the disease to other species has not yet been observed. Here, we
report a direct biochemical demonstration of pathological prion protein PrPTSE
and of PrPTSE-associated seeding activity in skeletal muscles of CWD-infected
cervids. The presence of PrPTSE was detected by Western- and postfixed frozen
tissue blotting, while the seeding activity of PrPTSE was revealed by protein
misfolding cyclic amplification (PMCA). The concentration of PrPTSE in skeletal
muscles of CWD-infected WTD was estimated to be approximately 2000- to
10000-fold lower than in brain tissue. Tissue-blot-analyses revealed that PrPTSE
was located in muscle- associated nerve fascicles but not, in detectable
amounts, in myocytes. The presence and seeding activity of PrPTSE in skeletal
muscle from CWD-infected cervids suggests prevention of such tissue in the human
diet as a precautionary measure for food safety, pending on further
clarification of whether CWD may be transmissible to humans.
Monday, August 26, 2013
***The Presence of Disease-Associated Prion Protein in Skeletal Muscle of
Cattle Infected with Classical Bovine Spongiform Encephalopathy
CDC DR. PAUL BROWN TSE EXPERT COMMENTS 2006
The U.S. Department of Agriculture was quick to assure the public earlier
this week that the third case of mad cow disease did not pose a risk to them,
but what federal officials have not acknowledged is that this latest case
indicates the deadly disease has been circulating in U.S. herds for at least a
decade.
The second case, which was detected last year in a Texas cow and which USDA
officials were reluctant to verify, was approximately 12 years old.
These two cases (the latest was detected in an Alabama cow) present a
picture of the disease having been here for 10 years or so, since it is thought
that cows usually contract the disease from contaminated feed they consume as
calves. The concern is that humans can contract a fatal, incurable,
brain-wasting illness from consuming beef products contaminated with the mad cow
pathogen.
"The fact the Texas cow showed up fairly clearly implied the existence of
other undetected cases," Dr. Paul Brown, former medical director of the National
Institutes of Health's Laboratory for Central Nervous System Studies and an
expert on mad cow-like diseases, told United Press International. "The question
was, 'How many?' and we still can't answer that."
Brown, who is preparing a scientific paper based on the latest two mad cow
cases to estimate the maximum number of infected cows that occurred in the
United States, said he has "absolutely no confidence in USDA tests before one
year ago" because of the agency's reluctance to retest the Texas cow that
initially tested positive.
USDA officials finally retested the cow and confirmed it was infected seven
months later, but only at the insistence of the agency's inspector
general.
"Everything they did on the Texas cow makes everything USDA did before 2005
suspect," Brown said. ...snip...end
PAUL BROWN COMMENT TO ME ON THIS ISSUE
Tuesday, September 12, 2006 11:10 AM
"Actually, Terry, I have been critical of the USDA handling of the mad cow
issue for some years, and with Linda Detwiler and others sent lengthy detailed
critiques and recommendations to both the USDA and the Canadian Food Agency."
OR, what the Honorable Phyllis Fong of the OIG found ;
Audit Report
Animal and Plant Health Inspection Service
Bovine Spongiform Encephalopathy (BSE) Surveillance Program – Phase II
and
Food Safety and Inspection Service
Controls Over BSE Sampling, Specified Risk Materials, and Advanced Meat
Recovery Products - Phase III
Report No. 50601-10-KC January 2006
Finding 2 Inherent Challenges in Identifying and Testing High-Risk Cattle
Still Remain
"These 9,200 cases were different because brain tissue samples were
preserved with formalin, which makes them suitable for only one type of
test--immunohistochemistry, or IHC."
THIS WAS DONE FOR A REASON!
THE IHC test has been proven to be the LEAST LIKELY to detect BSE/TSE in
the bovine, and these were probably from the most high risk cattle pool, the
ones the USDA et al, SHOULD have been testing. ...TSS
USDA 2003
snip...see
FDA PART 589 -- SUBSTANCES PROHIBITED FROM USE IN ANIMAL FOOD OR FEED
VIOLATIONS OFFICIAL ACTION INDICATED OAI UPDATE DECEMBER
2013 UPDATE
OAI 2012-2013
OAI (Official Action Indicated) when inspectors find significant
objectionable conditions or practices and believe that regulatory sanctions are
warranted to address the establishment’s lack of compliance with the regulation.
An example of an OAI classification would be findings of manufacturing
procedures insufficient to ensure that ruminant feed is not contaminated with
prohibited material. Inspectors will promptly re-inspect facilities classified
OAI after regulatory sanctions have been applied to determine whether the
corrective actions are adequate to address the objectionable conditions.
ATL-DO 1035703 Newberry Feed & Farm Ctr, Inc. 2431 Vincent St.
Newberry SC 29108-0714 OPR DR, FL, FR, TH HP 9/9/2013 OAI Y
DET-DO 1824979 Hubbard Feeds, Inc. 135 Main, P.O. Box 156 Shipshewana IN
46565-0156 OPR DR, FL, OF DP 8/29/2013 OAI Y
ATL-DO 3001460882 Talley Farms Feed Mill Inc 6309 Talley Rd Stanfield NC
28163-7617 OPR FL, TH NP 7/17/2013 OAI N
NYK-DO 3010260624 Sherry Sammons 612 Stoner Trail Rd Fonda NY 12068-5007
OPR FR, OF NP 7/16/2013 OAI Y
DEN-DO 3008575486 Rocky Ford Pet Foods 21693 Highway 50 East Rocky Ford CO
81067 OPR RE, TH HP 2/27/2013 OAI N
CHI-DO 3007091297 Rancho Cantera 2866 N Sunnyside Rd Kent IL 61044-9605 OPR
FR, OF HP 11/26/2012 OAI Y
*** DEN-DO 1713202 Weld County Bi Products, Inc. 1138 N 11th Ave Greeley CO
80631-9501 OPR RE, TH HP 10/12/2012 OAI N
Ruminant Feed Inspections Firms Inventory (excel format)
PLEASE NOTE, the VAI violations were so numerous, and unorganized in dates
posted, as in numerical order, you will have to sift through them for
yourselves. ...tss
Tuesday, June 11, 2013
*** Weld County Bi-Products dba Fort Morgan Pet Foods 6/1/12 significant
deviations from requirements in FDA regulations that are intended to reduce the
risk of bovine spongiform encephalopathy (BSE) within the United States
Thursday, June 6, 2013
BSE TSE PRION USDA FDA MAD COW FEED COMPLIANCE REPORT and NAI, OAI, and VAI
ratings as at June 5, 2013
Greetings,
since our fine federal friends have decided not to give out any more
reports on the USA breaches of the feed ban and surveillance etc. for the BSE
TSE prion mad cow type disease in the USDA livestock, I thought I might attempt
it. I swear, I just don’t understand the logic of the SSS policy, and that
includes all of it. I assure you, it would be much easier, and probably better
for the FDA and the USDA INC., if they would simply put some kind of report out
for Pete’s sake, instead of me doing it after I get mad, because I am going to
put it all out there. the truth.
PLEASE BE ADVISED, any breach of any of the above classifications OAI, VAI,
RTS, CAN lead to breaches into the feed BSE TSE prion protocols, and CAN lead to
the eventual suspect tainted feed reaching livestock. please, if any USDA
official out there disputes this, please explain then how they could not.
paperwork errors can eventually lead to breaches of the BSE TSE prion mad cow
feed ban reaching livestock, or contamination and exposure there from, as well.
I would sure like to see the full reports of just these ;
4018 CHI-DO 3007091297 Rancho Cantera 2866 N Sunnyside Rd Kent IL
61044-9605 OPR FR, OF HP 11/26/2012 OAI Y
9367 3008575486 Rocky Ford Pet Foods 21693 Highway 50 East Rocky Ford CO
81067 OPR RE, TH HP 2/27/2013 OAI N
9446 DEN-DO 1713202 Weld County Bi Products, Inc. 1138 N 11th Ave Greeley
CO 80631-9501 OPR RE, TH HP 10/12/2012 OAI N
9447 DEN-DO 3002857110 Weld County Bi-Products dba Fort Morgan Pet Foods
13553 County Road 19 Fort Morgan CO 80701-7506 OPR RE HP 12/7/2011 OAI N
see full list of the fda mad cow bse feed follies, toward the bottom,
after a short brief update on the mad cow bse follies, and our good friend
Lester Crawford that was at the FDA.
ALSO, I would kindly like to comment on this FDA BSE/Ruminant Feed
Inspections Firms Inventory (excel format)4 format, for reporting these breaches
of BSE TSE prion protocols, from the extensive mad cow feed ban warning letters
the fda use to put out for each violations. simply put, this excel format sucks,
and the FDA et al intentionally made it this difficult to follow the usda fda
mad cow follies. this is an intentional format to make it as difficult as
possible to follow these breaches of the mad cow TSE prion safety feed
protocols. to have absolutely no chronological or numerical order, and to format
such violations in a way that they are almost impossible to find, says a lot
about just how far the FDA and our fine federal friends will go through to hide
these continued violations of the BSE TSE prion mad cow feed ban, and any
breaches of protocols there from. once again, the wolf guarding the henhouse $$$
NAI = NO ACTION INDICATED
OAI = OFFICIAL ACTION INDICATED
VAI = VOLUNTARY ACTION INDICATED
RTS = REFERRED TO STATE
Inspections conducted by State and FDA investigators are classified to
reflect the compliance status at the time of the inspection, based upon whether
objectionable conditions were documented. Based on the conditions found,
inspection results are recorded in one of three classifications:
OAI (Official Action Indicated) when inspectors find significant
objectionable conditions or practices and believe that regulatory sanctions are
warranted to address the establishment’s lack of compliance with the regulation.
An example of an OAI classification would be findings of manufacturing
procedures insufficient to ensure that ruminant feed is not contaminated with
prohibited material. Inspectors will promptly re-inspect facilities classified
OAI after regulatory sanctions have been applied to determine whether the
corrective actions are adequate to address the objectionable conditions.
VAI (Voluntary Action Indicated) when inspectors find objectionable
conditions or practices that do not meet the threshold of regulatory
significance, but warrant an advisory to inform the establishment that
inspectors found conditions or practices that should be voluntarily corrected.
VAI violations are typically technical violations of the 1997 BSE Feed Rule.
These violations include minor recordkeeping lapses or conditions involving
non-ruminant feeds.
NAI (No Action Indicated) when inspectors find no objectionable conditions
or practices or, if they find objectionable conditions, those conditions are of
a minor nature and do not justify further actions.
when sound science was bought off by junk science, in regards to the BSE
TSE prion mad cow type disease, by the USDA, CFIA, WHO, OIE, et al. $$$
when the infamous, and fraudulently USDA, FSIS, APHIS, FDA, gold card was
taken away that infamous day in December of 2003, all cards were off the table,
it was time to change the science, and change they did. ...tss
snip. ...please see full text ;
Thursday, June 6, 2013
BSE TSE PRION USDA FDA MAD COW FEED COMPLIANCE REPORT and NAI, OAI, and VAI
ratings as at June 5, 2013
IN A NUT SHELL ;
(Adopted by the International Committee of the OIE on 23 May 2006)
11. Information published by the OIE is derived from appropriate
declarations made by the official Veterinary Services of Member Countries. The
OIE is not responsible for inaccurate publication of country disease status
based on inaccurate information or changes in epidemiological status or other
significant events that were not promptly reported to the Central Bureau,
Sunday, December 15, 2013
*** FDA PART 589 -- SUBSTANCES PROHIBITED FROM USE IN ANIMAL FOOD OR FEED
VIOLATIONS OFFICIAL ACTION INDICATED OAI UPDATE DECEMBER 2013 UPDATE
Saturday, December 21, 2013
**** Complementary studies detecting classical bovine spongiform
encephalopathy infectivity in jejunum, ileum and ileocaecal junction in
incubating cattle ****
Saturday, December 15, 2012
*** Bovine spongiform encephalopathy: the effect of oral exposure dose on
attack rate and incubation period in cattle -- an update 5 December 2012
***Oral Transmission of L-type Bovine Spongiform Encephalopathy in Primate
Model
***Infectivity in skeletal muscle of BASE-infected cattle
***feedstuffs- It also suggests a similar cause or source for atypical BSE
in these countries.
***Also, a link is suspected between atypical BSE and some apparently
sporadic cases of Creutzfeldt-Jakob disease in humans.
full text ; atypical L-type BASE BSE
However, a BSE expert said that consumption of infected material is the
only known way that cattle get the disease under natural conditons.
*** “In view of what we know about BSE after almost 20 years experience,
contaminated feed has been the source of the epidemic,” said Paul Brown, a
scientist retired from the National Institute of Neurological Diseases and
Stroke. BSE is not caused by a microbe. It is caused by the misfolding of the
so-called “prion protein” that is a normal constituent of brain and other
tissues. If a diseased version of the protein enters the brain somehow, it can
slowly cause all the normal versions to become misfolded. It is possible the
disease could arise spontaneously, though such an event has never been recorded,
Brown said.
*** What irks many scientists is the USDA’s April 25 statement that the
rare disease is “not generally associated with an animal consuming infected
feed.” The USDA’s conclusion is a “gross oversimplification,” said Dr. Paul
Brown, one of the world’s experts on this type of disease who retired recently
from the National Institutes of Health. "(The agency) has no foundation on which
to base that statement.”
2012 ATYPICAL L-TYPE BSE BASE CALIFORNIA ‘confirmed’ Saturday, August 4,
2012
*** Final Feed Investigation Summary - California BSE Case - July 2012
Saturday, August 14, 2010
BSE Case Associated with Prion Protein Gene Mutation (g-h-BSEalabama) and
VPSPr PRIONPATHY
(see mad cow feed in COMMERCE IN ALABAMA...TSS)
Friday, January 17, 2014
*** Annual report of the Scientific Network on BSE-TSE EFSA, Question No
EFSA-Q-2013-01004, approved on 11 December 2013
Wednesday, December 4, 2013
*** Bovine Spongiform Encephalopathy; Importation of Bovines and Bovine
Products; Final Rule Federal Register / Vol. 78 , No. 233 / Wednesday, December
4, 2013
TO ALL IMPORTING COUNTRIES THAT IMPORTS FROM THE USA, BE WARNED, NEW MAD
COW BSE REGULATIONS USDA, AND OIE, not worth the paper the regulations were
wrote on, kind of like the mad cow feed ban of August 1997, nothing but ink on
paper $$$
full text ;
Wednesday, May 2, 2012
ARS FLIP FLOPS ON SRM REMOVAL FOR ATYPICAL L-TYPE BASE BSE RISK HUMAN AND
ANIMAL HEALTH
Saturday, June 12, 2010
PUBLICATION REQUEST AND FOIA REQUEST Project Number: 3625-32000-086-05
Study of Atypical Bse
Wednesday, July 28, 2010
re-Freedom of Information Act Project Number 3625-32000-086-05, Study of
Atypical BSE UPDATE July 28, 2010
Tuesday, June 11, 2013
*** Weld County Bi-Products dba Fort Morgan Pet Foods 6/1/12 significant
deviations from requirements in FDA regulations that are intended to reduce the
risk of bovine spongiform encephalopathy (BSE) within the United States
Monday, March 8, 2010
UPDATE 429,128 lbs. feed for ruminant animals may have been contaminated
with prohibited material Recall # V-258-2009
Friday, September 4, 2009
FOIA REQUEST ON FEED RECALL PRODUCT 429,128 lbs. feed for ruminant animals
may have been contaminated with prohibited material Recall # V-258-2009
Tuesday, November 3, 2009
re-FOIA REQUEST ON FEED RECALL PRODUCT contaminated with prohibited
material Recall # V-258-2009 and Recall # V-256-2009
Friday, March 8, 2013
Dogs may have been used to make Petfood and animal feed
Monday, March 26, 2012
CANINE SPONGIFORM ENCEPHALOPATHY: A NEW FORM OF ANIMAL PRION DISEASE
http://caninespongiformencephalopathy.blogspot.com/2012/03/canine-spongiform-encephalopathy-new.html
FELINE SPONGIFORM ENCEPHALOPATHY FSE
Saturday, November 2, 2013
APHIS Finalizes Bovine Import Regulations in Line with International Animal
Health Standards while enhancing the spread of BSE TSE prion mad cow type
disease around the Globe
Monday, March 19, 2012
Infectivity in Skeletal Muscle of Cattle with Atypical Bovine Spongiform
Encephalopathy
PLoS One. 2012; 7(2): e31449.
Saturday, June 25, 2011
Transmissibility of BSE-L and Cattle-Adapted TME Prion Strain to Cynomolgus
Macaque
"BSE-L in North America may have existed for decades"
Over the next 8-10 weeks, approximately 40% of all the adult mink on the
farm died from TME.
snip...
The rancher was a ''dead stock'' feeder using mostly (>95%) downer or
dead dairy cattle...
http://web.archive.org/web/20030516051623/http://www.bseinquiry.gov.uk/files/mb/m09/tab05.pdf
Monday, October 10, 2011
EFSA Journal 2011 The European Response to BSE: A Success Story
snip...
EFSA and the European Centre for Disease Prevention and Control (ECDC)
recently delivered a scientific opinion on any possible epidemiological or
molecular association between TSEs in animals and humans (EFSA Panel on
Biological Hazards (BIOHAZ) and ECDC, 2011). This opinion confirmed Classical
BSE prions as the only TSE agents demonstrated to be zoonotic so far but the
possibility that a small proportion of human cases so far classified as
"sporadic" CJD are of zoonotic origin could not be excluded. Moreover,
transmission experiments to non-human primates suggest that some TSE agents in
addition to Classical BSE prions in cattle (namely L-type Atypical BSE,
Classical BSE in sheep, transmissible mink encephalopathy (TME) and chronic
wasting disease (CWD) agents) might have zoonotic potential.
snip...
see follow-up here about North America BSE Mad Cow TSE prion risk factors,
and the ever emerging strains of Transmissible Spongiform Encephalopathy in many
species here in the USA, including humans ;
Thursday, August 12, 2010
Seven main threats for the future linked to prions
First threat
The TSE road map defining the evolution of European policy for protection
against prion diseases is based on a certain numbers of hypotheses some of which
may turn out to be erroneous. In particular, a form of BSE (called atypical
Bovine Spongiform Encephalopathy), recently identified by systematic testing in
aged cattle without clinical signs, may be the origin of classical BSE and thus
potentially constitute a reservoir, which may be impossible to eradicate if a
sporadic origin is confirmed.
***Also, a link is suspected between atypical BSE and some apparently
sporadic cases of Creutzfeldt-Jakob disease in humans. These atypical BSE cases
constitute an unforeseen first threat that could sharply modify the European
approach to prion diseases.
Second threat
snip...
Rural and Regional Affairs and Transport References Committee
The possible impacts and consequences for public health, trade and
agriculture of the Government's decision to relax import restrictions on beef
Final report June 2010
2.65 At its hearing on 14 May 2010, the committee heard evidence from Dr
Alan Fahey who has recently submitted a thesis on the clinical neuropsychiatric,
epidemiological and diagnostic features of Creutzfeldt-Jakob disease.48 Dr Fahey
told the committee of his concerns regarding the lengthy incubation period for
transmissible spongiform encephalopathies, the inadequacy of current tests and
the limited nature of our current understanding of this group of
diseases.49
2.66 Dr Fahey also told the committee that in the last two years a link has
been established between forms of atypical CJD and atypical BSE. Dr Fahey said
that: They now believe that those atypical BSEs overseas are in fact causing
sporadic Creutzfeldt-Jakob disease. They were not sure if it was due to mad
sheep disease or a different form. If you look in the textbooks it looks like
this is just arising by itself. But in my research I have a summary of a
document which states that there has never been any proof that sporadic
Creutzfeldt-Jakob disease has arisen de novo-has arisen of itself. There is no
proof of that. The recent research is that in fact it is due to atypical forms
of mad cow disease which have been found across Europe, have been found in
America and have been found in Asia. These atypical forms of mad cow disease
typically have even longer incubation periods than the classical mad cow
disease.50
Atypical BSE in Cattle
To date the OIE/WAHO assumes that the human and animal health standards set
out in the BSE chapter for classical BSE (C-Type) applies to all forms of BSE
which include the H-type and L-type atypical forms. This assumption is
scientifically not completely justified and accumulating evidence suggests that
this may in fact not be the case. Molecular characterization and the spatial
distribution pattern of histopathologic lesions and immunohistochemistry (IHC)
signals are used to identify and characterize atypical BSE. Both the L-type and
H-type atypical cases display significant differences in the conformation and
spatial accumulation of the disease associated prion protein (PrPSc) in brains
of afflicted cattle. Transmission studies in bovine transgenic and wild type
mouse models support that the atypical BSE types might be unique strains because
they have different incubation times and lesion profiles when compared to C-type
BSE. When L-type BSE was inoculated into ovine transgenic mice and Syrian
hamster the resulting molecular fingerprint had changed, either in the first or
a subsequent passage, from L-type into C-type BSE.
In addition, non-human primates are specifically susceptible for atypical
BSE as demonstrated by an approximately 50% shortened incubation time for L-type
BSE as compared to C-type. Considering the current scientific information
available, it cannot be assumed that these different BSE types pose the same
human health risks as C-type BSE or that these risks are mitigated by the same
protective measures.
This study will contribute to a correct definition of specified risk
material (SRM) in atypical BSE. The incumbent of this position will develop new
and transfer existing, ultra-sensitive methods for the detection of atypical BSE
in tissue of experimentally infected cattle.
When L-type BSE was inoculated into ovine transgenic mice and Syrian
hamster the resulting molecular fingerprint had changed, either in the first or
a subsequent passage, from L-type into C-type BSE. In addition, non-human
primates are specifically susceptible for atypical BSE as demonstrated by an
approximately 50% shortened incubation time for L-type BSE as compared to
C-type. Considering the current scientific information available, it cannot be
assumed that these different BSE types pose the same human health risks as
C-type BSE or that these risks are mitigated by the same protective measures.
This study will contribute to a correct definition of specified risk
material (SRM) in atypical BSE. The incumbent of this position will develop new
and transfer existing, ultra-sensitive methods for the detection of atypical BSE
in tissue of experimentally infected cattle.
P.4.23
Transmission of atypical BSE in humanized mouse models
Liuting Qing1, Wenquan Zou1, Cristina Casalone2, Martin Groschup3, Miroslaw
Polak4, Maria Caramelli2, Pierluigi Gambetti1, Juergen Richt5, Qingzhong Kong1
1Case Western Reserve University, USA; 2Instituto Zooprofilattico Sperimentale,
Italy; 3Friedrich-Loeffler-Institut, Germany; 4National Veterinary Research
Institute, Poland; 5Kansas State University (Previously at USDA National Animal
Disease Center), USA
Background: Classical BSE is a world-wide prion disease in cattle, and the
classical BSE strain (BSE-C) has led to over 200 cases of clinical human
infection (variant CJD). Atypical BSE cases have been discovered in three
continents since 2004; they include the L-type (also named BASE), the H-type,
and the first reported case of naturally occurring BSE with mutated bovine PRNP
(termed BSE-M). The public health risks posed by atypical BSE were largely
undefined.
Objectives: To investigate these atypical BSE types in terms of their
transmissibility and phenotypes in humanized mice. Methods: Transgenic mice
expressing human PrP were inoculated with several classical (C-type) and
atypical (L-, H-, or Mtype) BSE isolates, and the transmission rate, incubation
time, characteristics and distribution of PrPSc, symptoms, and histopathology
were or will be examined and compared.
Results: Sixty percent of BASE-inoculated humanized mice became infected
with minimal spongiosis and an average incubation time of 20-22 months, whereas
only one of the C-type BSE-inoculated mice developed prion disease after more
than 2 years. Protease-resistant PrPSc in BASE-infected humanized Tg mouse
brains was biochemically different from bovine BASE or sCJD. PrPSc was also
detected in the spleen of 22% of BASE-infected humanized mice, but not in those
infected with sCJD. Secondary transmission of BASE in the humanized mice led to
a small reduction in incubation time.*** The atypical BSE-H strain is also
transmissible with distinct phenotypes in the humanized mice, but no BSE-M
transmission has been observed so far.
Discussion: Our results demonstrate that BASE is more virulent than
classical BSE, has a lymphotropic phenotype, and displays a modest transmission
barrier in our humanized mice. BSE-H is also transmissible in our humanized Tg
mice. The possibility of more than two atypical BSE strains will be discussed.
Supported by NINDS NS052319, NIA AG14359, and NIH AI 77774.
P26 TRANSMISSION OF ATYPICAL BOVINE SPONGIFORM ENCEPHALOPATHY (BSE) IN
HUMANIZED MOUSE MODELS
Liuting Qing1, Fusong Chen1, Michael Payne1, Wenquan Zou1, Cristina
Casalone2, Martin Groschup3, Miroslaw Polak4, Maria Caramelli2, Pierluigi
Gambetti1, Juergen Richt5*, and Qingzhong Kong1 1Department of Pathology, Case
Western Reserve University, Cleveland, OH 44106, USA; 2CEA, Istituto
Zooprofilattico Sperimentale, Italy; 3Friedrich-Loeffler-Institut, Germany;
4National Veterinary Research Institute, Poland; 5Kansas State University,
Diagnostic Medicine/Pathobiology Department, Manhattan, KS 66506, USA. *Previous
address: USDA National Animal Disease Center, Ames, IA 50010, USA
Classical BSE is a world-wide prion disease in cattle, and the classical
BSE strain (BSE-C) has led to over 200 cases of clinical human infection
(variant CJD). Two atypical BSE strains, BSE-L (also named BASE) and BSE-H, have
been discovered in three continents since 2004. The first case of naturally
occurring BSE with mutated bovine PrP gene (termed BSE-M) was also found in 2006
in the USA. The transmissibility and phenotypes of these atypical BSE
strains/isolates in humans were unknown. We have inoculated humanized transgenic
mice with classical and atypical BSE strains (BSE-C, BSE-L, BSE-H) and the BSE-M
isolate. We have found that the atypical BSE-L strain is much more virulent than
the classical BSE-C.*** The atypical BSE-H strain is also transmissible in the
humanized transgenic mice with distinct phenotype, but no transmission has been
observed for the BSE-M isolate so far.
III International Symposium on THE NEW PRION BIOLOGY: BASIC SCIENCE,
DIAGNOSIS AND THERAPY 2 - 4 APRIL 2009, VENEZIA (ITALY)
I ask Professor Kong ;
Thursday, December 04, 2008 3:37 PM Subject: RE: re--Chronic Wating Disease
(CWD) and Bovine Spongiform Encephalopathies (BSE): Public Health Risk
Assessment
''IS the h-BSE more virulent than typical BSE as well, or the same as cBSE,
or less virulent than cBSE? just curious.....''
Professor Kong reply ;
.....snip
''As to the H-BSE, we do not have sufficient data to say one way or
another, but we have found that H-BSE can infect humans. I hope we could publish
these data once the study is complete. Thanks for your interest.''
Best regards, Qingzhong Kong, PhD Associate Professor Department of
Pathology Case Western Reserve University Cleveland, OH 44106 USA
END...TSS
Thursday, December 04, 2008 2:37 PM
"we have found that H-BSE can infect humans."
personal communication with Professor Kong. ...TSS
BSE-H is also transmissible in our humanized Tg mice.
The possibility of more than two atypical BSE strains will be discussed.
Supported by NINDS NS052319, NIA AG14359, and NIH AI 77774.
Tuesday, July 14, 2009 U.S.
Emergency Bovine Spongiform Encephalopathy Response Plan Summary and BSE
Red Book
Date: February 14, 2000 at 8:56 am PST
WHERE did we go wrong $$$
LET'S take a closer look at this new prionpathy or prionopathy, and then
let's look at the g-h-BSEalabama mad cow. This new prionopathy in humans? the
genetic makeup is IDENTICAL to the g-h-BSEalabama mad cow, the only _documented_
mad cow in the world to date like this, ......wait, it get's better. this new
prionpathy is killing young and old humans, with LONG DURATION from onset of
symptoms to death, and the symptoms are very similar to nvCJD victims, OH, and
the plaques are very similar in some cases too, bbbut, it's not related to the
g-h-BSEalabama cow, WAIT NOW, it gets even better, the new human prionpathy that
they claim is a genetic TSE, has no relation to any gene mutation in that
family. daaa, ya think it could be related to that mad cow with the same genetic
make-up ??? there were literally tons and tons of banned mad cow protein in
Alabama in commerce, and none of it transmitted to cows, and the cows to humans
there from ??? r i g h t $$$ ALABAMA MAD COW g-h-BSEalabama In this study, we
identified a novel mutation in the bovine prion protein gene (Prnp), called
E211K, of a confirmed BSE positive cow from Alabama, United States of America.
This mutation is identical to the E200K pathogenic mutation found in humans with
a genetic form of CJD. This finding represents the first report of a confirmed
case of BSE with a potential pathogenic mutation within the bovine Prnp gene. We
hypothesize that the bovine Prnp E211K mutation most likely has caused BSE in
"the approximately 10-year-old cow" carrying the E221K mutation.
Saturday, August 14, 2010
BSE Case Associated with Prion Protein Gene Mutation (g-h-BSEalabama) and
VPSPr PRIONPATHY (see mad cow feed in COMMERCE IN ALABAMA...TSS)
her healthy calf also carried the mutation (J. A. Richt and S. M. Hall
PLoS Pathog. 4, e1000156; 2008).
This raises the possibility that the disease could occasionally be genetic
in origin. Indeed, the report of the UK BSE Inquiry in 2000 suggested that the
UK epidemic had most likely originated from such a mutation and argued against
the scrapierelated assumption. Such rare potential pathogenic PRNP mutations
could occur in countries at present considered to be free of BSE, such as
Australia and New Zealand. So it is important to maintain strict surveillance
for BSE in cattle, with rigorous enforcement of the ruminant feed ban (many
countries still feed ruminant proteins to pigs). Removal of specified risk
material, such as brain and spinal cord, from cattle at slaughter prevents
infected material from entering the human food chain. Routine genetic screening
of cattle for PRNP mutations, which is now available, could provide additional
data on the risk to the public. Because the point mutation identified in the
Alabama animals is identical to that responsible for the commonest type of
familial (genetic) CJD in humans, it is possible that the resulting infective
prion protein might cross the bovine-human species barrier more easily. Patients
with vCJD continue to be identified. The fact that this is happening less often
should not lead to relaxation of the controls necessary to prevent future
outbreaks. Malcolm A. Ferguson-Smith Cambridge University Department of
Veterinary Medicine, Madingley Road, Cambridge CB3 0ES, UK e-mail:
maf12@cam.ac.uk JĂĽrgen A. Richt College of Veterinary Medicine, Kansas State
University, K224B Mosier Hall, Manhattan, Kansas 66506-5601, USA NATURE|Vol
457|26 February 2009
SEE FULL TEXT OF ALL THIS HERE ;
2009 UPDATE ON ALABAMA AND TEXAS MAD COWS 2005 and 2006
Friday, December 23, 2011
Oral Transmission of L-type Bovine Spongiform Encephalopathy in Primate
Model
Volume 18, Number 1—January 2012 Dispatch
Friday, March 09, 2012
Experimental H-type and L-type bovine spongiform encephalopathy in cattle:
observation of two clinical syndromes and diagnostic challenges
Research article
Sunday, February 5, 2012
February 2012 Update on Feed Enforcement Activities to Limit the Spread of
BSE
Wednesday, March 7, 2012
Case-control study of cases of bovine spongiform encephalopathy born after
July 31, 1996 (BARB cases) in Great Britain Veterinary Record
doi:10.1136/vr.100097
Wednesday, March 7, 2012
The epidemiology of bovine spongiform encephalopathy in the Republic of
Ireland before and after the reinforced feed ban
Thursday, February 23, 2012
EIGHT FORMER SECRETARIES OF AGRICULTURE SPEAKING AT USDA'S 2012 AGRICULTURE
OUTLOOK FORUM INDUCTED INTO USA MAD COW HALL OF SHAME
Thursday, February 16, 2012
Bovine Spongiform Encephalopathy BSE
31 USA SENATORS ASK PRESIDENT OBAMA TO HELP SPREAD MAD COW DISEASE 2012
Tuesday, February 14, 2012
White House budget proposes cuts to ag programs including TSE PRION disease
aka mad cow type disease
Saturday, July 23, 2011
CATTLE HEADS WITH TONSILS, BEEF TONGUES, SPINAL CORD, SPECIFIED RISK
MATERIALS (SRM's) AND PRIONS, AKA MAD COW DISEASE
Saturday, November 6, 2010
TAFS1 Position Paper on Position Paper on Relaxation of the Feed Ban in the
EU
Berne, 2010 TAFS INTERNATIONAL FORUM FOR TRANSMISSIBLE ANIMAL DISEASES AND
FOOD SAFETY a non-profit Swiss Foundation
Archive Number 20101206.4364 Published Date 06-DEC-2010 Subject
PRO/AH/EDR>
Prion disease update 2010 (11) PRION DISEASE UPDATE 2010 (11)
P.9.21 Molecular characterization of BSE in Canada
Jianmin Yang1, Sandor Dudas2, Catherine Graham2, Markus Czub3, Tim
McAllister1, Stefanie Czub1 1Agriculture and Agri-Food Canada Research Centre,
Canada; 2National and OIE BSE Reference Laboratory, Canada; 3University of
Calgary, Canada
Background: Three BSE types (classical and two atypical) have been
identified on the basis of molecular characteristics of the misfolded protein
associated with the disease. To date, each of these three types have been
detected in Canadian cattle.
Objectives: This study was conducted to further characterize the 16
Canadian BSE cases based on the biochemical properties of there associated
PrPres.
Methods: Immuno-reactivity, molecular weight, glycoform profiles and
relative proteinase K sensitivity of the PrPres from each of the 16 confirmed
Canadian BSE cases was determined using modified Western blot analysis. Results:
Fourteen of the 16 Canadian BSE cases were C type, 1 was H type and 1 was L
type. The Canadian H and L-type BSE cases exhibited size shifts and changes in
glycosylation similar to other atypical BSE cases. PK digestion under mild and
stringent conditions revealed a reduced protease resistance of the atypical
cases compared to the C-type cases. N terminal- specific antibodies bound to
PrPres from H type but not from C or L type. The C-terminal-specific antibodies
resulted in a shift in the glycoform profile and detected a fourth band in the
Canadian H-type BSE.
Discussion: The C, L and H type BSE cases in Canada exhibit molecular
characteristics similar to those described for classical and atypical BSE cases
from Europe and Japan. This supports the theory that the importation of BSE
contaminated feedstuff is the source of C-type BSE in Canada. *** It also
suggests a similar cause or source for atypical BSE in these countries.
October 2009 O.11.3 Infectivity in skeletal muscle of BASE-infected cattle
Silvia Suardi1, Chiara Vimercati1, Fabio Moda1, Ruggerone Margherita1,
Ilaria Campagnani1, Guerino Lombardi2, Daniela Gelmetti2, Martin H. Groschup3,
Anne Buschmann3, Cristina Casalone4, Maria Caramelli4, Salvatore Monaco5,
Gianluigi Zanusso5, Fabrizio Tagliavini1 1Carlo Besta" Neurological
Institute,Italy; 2IZS Brescia, Italy; 33FLI Insel Riems, D, Germany; 4CEA-IZS
Torino, Italy; 5University of Verona, Italy
Background: BASE is an atypical form of bovine spongiform encephalopathy
caused by a prion strain distinct from that of BSE. Upon experimental
transmission to cattle, BASE induces a previously unrecognized disease phenotype
marked by mental dullness and progressive atrophy of hind limb musculature.
Whether affected muscles contain infectivity is unknown. This is a critical
issue since the BASE strain is readily transmissible to a variety of hosts
including primates, suggesting that humans may be susceptible.
Objectives: To investigate the distribution of infectivity in peripheral
tissues of cattle experimentally infected with BASE. Methods: Groups of Tg mice
expressing bovine PrP (Tgbov XV, n= 7-15/group) were inoculated both i.c. and
i.p. with 10% homogenates of a variety of tissues including brain, spleen,
cervical lymph node, kidney and skeletal muscle (m. longissimus dorsi) from
cattle intracerebrally infected with BASE. No PrPres was detectable in the
peripheral tissues used for inoculation either by immunohistochemistry or
Western blot.
Results: Mice inoculated with BASE-brain homogenates showed clinical signs
of disease with incubation and survival times of 175±15 and 207±12 days. Five
out of seven mice challenged with skeletal muscle developed a similar
neurological disorder, with incubation and survival times of 380±11 and 410±12
days. At present (700 days after inoculation) mice challenged with the other
peripheral tissues are still healthy. The neuropathological phenotype and PrPres
type of the affected mice inoculated either with brain or muscle were
indistinguishable and matched those of Tgbov XV mice infected with natural BASE.
Discussion: Our data indicate that the skeletal muscle of cattle
experimentally infected with BASE contains significant amount of infectivity, at
variance with BSE-affected cattle, raising the issue of intraspecies
transmission and the potential risk for humans. Experiments are in progress to
assess the presence of infectivity in skeletal muscles of natural BASE.
1: J Infect Dis 1980 Aug;142(2):205-8
*** Oral transmission of kuru, Creutzfeldt-Jakob disease, and scrapie to
nonhuman primates.
Gibbs CJ Jr, Amyx HL, Bacote A, Masters CL, Gajdusek DC.
Kuru and Creutzfeldt-Jakob disease of humans and scrapie disease of sheep
and goats were transmitted to squirrel monkeys (Saimiri sciureus) that were
exposed to the infectious agents only by their nonforced consumption of known
infectious tissues. The asymptomatic incubation period in the one monkey exposed
to the virus of kuru was 36 months; that in the two monkeys exposed to the virus
of Creutzfeldt-Jakob disease was 23 and 27 months, respectively; and that in the
two monkeys exposed to the virus of scrapie was 25 and 32 months, respectively.
Careful physical examination of the buccal cavities of all of the monkeys failed
to reveal signs or oral lesions. One additional monkey similarly exposed to kuru
has remained asymptomatic during the 39 months that it has been under
observation.
snip...
The successful transmission of kuru, Creutzfeldt-Jakob disease, and scrapie
by natural feeding to squirrel monkeys that we have reported provides further
grounds for concern that scrapie-infected meat may occasionally give rise in
humans to Creutzfeldt-Jakob disease.
PMID: 6997404
http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=6997404&dopt=Abstract
WHAT about the sporadic CJD TSE proteins ?
WE now know that some cases of sporadic CJD are linked to atypical BSE and
atypical Scrapie, so why are not MORE concerned about the sporadic CJD, and all
it’s sub-types $$$
Creutzfeldt-Jakob Disease CJD cases rising North America updated report
August 2013
*** Creutzfeldt-Jakob Disease CJD cases rising North America with Canada
seeing an extreme increase of 48% between 2008 and 2010 ***
Sunday, October 13, 2013
*** CJD TSE Prion Disease Cases in Texas by Year, 2003-2012
Thursday, January 2, 2014
*** CWD TSE Prion in cervids to hTGmice, Heidenhain Variant
Creutzfeldt-Jacob Disease MM1 genotype, and iatrogenic CJD ???
Friday, January 10, 2014
*** vpspr, sgss, sffi, TSE, an iatrogenic by-product of gss, ffi, familial
type prion disease, what it ???
Monday, January 13, 2014
*** Prions in Variably Protease-Sensitive Prionopathy: An Update Pathogens
2013
Pathogens 2013, 2, 457-471; doi:10.3390/pathogens2030457
Wednesday, January 15, 2014
*** INFECTION PREVENTION AND CONTROL OF CJD, VCJD AND OTHER HUMAN PRION
DISEASES IN HEALTHCARE AND COMMUNITY SETTINGS Variably Protease-Sensitive
Prionopathy (VPSPr) January 15, 2014
Sunday, January 19, 2014
*** National Prion Disease Pathology Surveillance Center Cases Examined1 as
of January 8, 2014 ***
Thursday, January 23, 2014
Medical Devices Containing Materials Derived from Animal Sources (Except
for In Vitro Diagnostic Devices) [Docket No. FDA–2013–D–1574]
Saturday, February 01, 2014
vCJD With Extremely Low Lymphoreticular Deposition of Prion Protein MAY NOT
HAVE BEEN DETECTABLE
Terry S. Singeltary Sr. Bacliff, Texas USA 77518 flounder9@verizon.net
