Chronic Wasting Disease CWD in cervidae and transmission to other species
> but the U.S. Centers for Disease Control and Prevention has said there
is no evidence the illness can be transmitted to humans or livestock.
that statement is a red herring, or simply not completely true, take your
pick, depending what you consider as evidence.
let’s evaluate this, shall we, and you be the judge...
UPDATED CORRESPONDENCE FROM AUTHORS OF THIS STUDY I.E. COLBY, PRUSINER ET
AL, ABOUT MY CONCERNS OF THE DISCREPANCY BETWEEN THEIR FIGURES AND MY FIGURES OF
THE STUDIES ON CWD TRANSMISSION TO CATTLE ;
CWD to cattle figures CORRECTION
Greetings,
I believe the statement and quote below is incorrect ;
"CWD has been transmitted to cattle after intracerebral inoculation,
although the infection rate was low (4 of 13 animals [Hamir et al. 2001]). This
finding raised concerns that CWD prions might be transmitted to cattle grazing
in contaminated pastures."
Please see ;
Within 26 months post inoculation, 12 inoculated animals had lost weight,
revealed abnormal clinical signs, and were euthanatized. Laboratory tests
revealed the presence of a unique pattern of the disease agent in tissues of
these animals. These findings demonstrate that when CWD is directly inoculated
into the brain of cattle, 86% of inoculated cattle develop clinical signs of the
disease.
" although the infection rate was low (4 of 13 animals [Hamir et al.
2001]). "
shouldn't this be corrected, 86% is NOT a low rate. ...
kindest regards,
Terry S. Singeltary Sr. P.O. Box 42 Bacliff, Texas USA 77518
Thank you!
Thanks so much for your updates/comments. We intend to publish as rapidly
as possible all updates/comments that contribute substantially to the topic
under discussion.
re-Prions David W. Colby1,* and Stanley B. Prusiner1,2 + Author
Affiliations
1Institute for Neurodegenerative Diseases, University of California, San
Francisco, San Francisco, California 94143 2Department of Neurology, University
of California, San Francisco, San Francisco, California 94143 Correspondence: stanley@ind.ucsf.edu
Mule deer, white-tailed deer, and elk have been reported to develop CWD. As
the only prion disease identified in free-ranging animals, CWD appears to be far
more communicable than other forms of prion disease. CWD was first described in
1967 and was reported to be a spongiform encephalopathy in 1978 on the basis of
histopathology of the brain. Originally detected in the American West, CWD has
spread across much of North America and has been reported also in South Korea.
In captive populations, up to 90% of mule deer have been reported to be positive
for prions (Williams and Young 1980). The incidence of CWD in cervids living in
the wild has been estimated to be as high as 15% (Miller et al. 2000). The
development of transgenic (Tg) mice expressing cervid PrP, and thus susceptible
to CWD, has enhanced detection of CWD and the estimation of prion titers
(Browning et al. 2004; Tamgüney et al. 2006). Shedding of prions in the feces,
even in presymptomatic deer, has been identified as a likely source of infection
for these grazing animals (Williams and Miller 2002; Tamgüney et al. 2009b). CWD
has been transmitted to cattle after intracerebral inoculation, although the
infection rate was low (4 of 13 animals [Hamir et al. 2001]). This finding
raised concerns that CWD prions might be transmitted to cattle grazing in
contaminated pastures.
snip...
----- Original Message -----
From: David Colby To: flounder9@verizon.net
Cc: stanley@XXXXXXXX
Sent: Tuesday, March 01, 2011 8:25 AM
Subject: Re: FW: re-Prions David W. Colby1,* and Stanley B. Prusiner1,2 +
Author Affiliations
Dear Terry Singeltary,
Thank you for your correspondence regarding the review article Stanley
Prusiner and I recently wrote for Cold Spring Harbor Perspectives. Dr. Prusiner
asked that I reply to your message due to his busy schedule. We agree that the
transmission of CWD prions to beef livestock would be a troubling development
and assessing that risk is important. In our article, we cite a peer-reviewed
publication reporting confirmed cases of laboratory transmission based on
stringent criteria. The less stringent criteria for transmission described in
the abstract you refer to lead to the discrepancy between your numbers and ours
and thus the interpretation of the transmission rate. We stand by our assessment
of the literature--namely that the transmission rate of CWD to bovines appears
relatively low, but we recognize that even a low transmission rate could have
important implications for public health and we thank you for bringing attention
to this matter. Warm Regards, David Colby -- David Colby, PhDAssistant Professor
Department of Chemical Engineering University of Delaware
===========END...TSS==============
SNIP...SEE FULL TEXT ;
UPDATED DATA ON 2ND CWD STRAIN Wednesday, September 08, 2010 CWD PRION
CONGRESS SEPTEMBER 8-11 2010
Sunday, August 19, 2012
Susceptibility of cattle to the agent of chronic wasting disease from elk
after intracranial inoculation 2012
Research Project: TRANSMISSION, DIFFERENTIATION, AND PATHOBIOLOGY OF
TRANSMISSIBLE SPONGIFORM ENCEPHALOPATHIES Location: Virus and Prion Research
Unit
PO-081: Chronic wasting disease in the cat— Similarities to feline
spongiform encephalopathy (FSE)
PO-081: Chronic wasting disease in the cat— Similarities to feline
spongiform encephalopathy (FSE)
Thursday, May 31, 2012
CHRONIC WASTING DISEASE CWD PRION2012 Aerosol, Inhalation transmission,
Scrapie, cats, species barrier, burial, and more
CHRONIC WASTING DISEASE, CWD, AND THE DEER PENS AT THE FOOT HILLS CAMPUS
page 30,
*** Spraker suggested an interesting explanation for the occurrence of CWD.
The deer pens at the Foot Hills Campus were built some 30-40 years ago by a Dr.
Bob Davis. At or about that time, allegedly, some scrapie work was conducted at
this site. When deer were introduced to the pens they occupied ground that had
previously been occupied by sheep.
(PLEASE NOTE SOME OF THESE OLD UK GOVERNMENT FILE URLS ARE SLOW TO OPEN,
AND SOMETIMES YOU MAY HAVE TO CLICK ON MULTIPLE TIMES, PLEASE BE PATIENT, ANY
PROBLEMS PLEASE WRITE ME PRIVATELY, AND I WILL TRY AND FIX OR SEND YOU OLD PDF
FILE...TSS)
IN CONFIDENCE
PERCEPTIONS OF UNCONVENTIONAL SLOW VIRUS DISEASES OF ANIMALS IN USA
GAH WELLS
REPORT OF A VISIT TO THE USA APRIL-MAY 1989
PAGE 25
Transmission Studies
Mule deer transmissions of CWD were by intracerebral inoculation and
compared with natural cases resulted in a more rapidly progressive clinical
disease with repeated episodes of synocopy ending in coma. One control animal
became affected, it is believed through contamination of inoculam (?saline).
Further CWD transmissions were carried out by Dick Marsh into ferret, mink
and squirrel monkey. Transmission occurred in all of these species with the
shortest incubation period in the ferret.
2011 Annual Report
Research Project: TRANSMISSION, DIFFERENTIATION, AND PATHOBIOLOGY OF
TRANSMISSIBLE SPONGIFORM ENCEPHALOPATHIES Location: Virus and Prion Research
Unit
2011 Annual Report
In Objective 1, Assess cross-species transmissibility of transmissible
spongiform encephalopathies (TSEs) in livestock and wildlife, numerous
experiments assessing the susceptibility of various TSEs in different host
species were conducted. Most notable is deer inoculated with scrapie, which
exhibits similarities to chronic wasting disease (CWD) in deer suggestive of
sheep scrapie as an origin of CWD.
snip...
4.Accomplishments 1. Deer inoculated with domestic isolates of sheep
scrapie. Scrapie-affected deer exhibit 2 different patterns of disease
associated prion protein. In some regions of the brain the pattern is much like
that observed for scrapie, while in others it is more like chronic wasting
disease (CWD), the transmissible spongiform encephalopathy typically associated
with deer. This work conducted by ARS scientists at the National Animal Disease
Center, Ames, IA suggests that an interspecies transmission of sheep scrapie to
deer may have been the origin of CWD. This is important for husbandry practices
with both captive deer, elk and sheep for farmers and ranchers attempting to
keep their herds and flocks free of CWD and scrapie.
now, years later, see the latest studies here on scrapie and cwd ;
PO-039: A comparison of scrapie and chronic wasting disease in white-tailed
deer
Justin Greenlee, Jodi Smith, Eric Nicholson US Dept. Agriculture;
Agricultural Research Service, National Animal Disease Center; Ames, IA USA
Interspecies transmission studies afford the opportunity to better
understand the potential host range and origins of prion diseases. The purpose
of these experiments was to determine susceptibility of white-tailed deer (WTD)
to scrapie and to compare the resultant clinical signs, lesions, and molecular
profiles of PrPSc to those of chronic wasting disease (CWD). We inoculated WTD
intracranially (IC; n = 5) and by a natural route of exposure (concurrent oral
and intranasal (IN); n = 5) with a US scrapie isolate. All deer were inoculated
with a 10% (wt/vol) brain homogenate from sheep with scrapie (1ml IC, 1 ml IN,
30 ml oral). All deer inoculated by the intracranial route had evidence of PrPSc
accumulation. PrPSc was detected in lymphoid tissues as early as 7
months-post-inoculation (PI) and a single deer that was necropsied at 15.6
months had widespread distribution of PrPSc highlighting that PrPSc is widely
distributed in the CNS and lymphoid tissues prior to the onset of clinical
signs. IC inoculated deer necropsied after 20 months PI (3/5) had clinical
signs, spongiform encephalopathy, and widespread distribution of PrPSc in neural
and lymphoid tissues. The results of this study suggest that there are many
similarities in the manifestation of CWD and scrapie in WTD after IC inoculation
including early and widespread presence of PrPSc in lymphoid tissues, clinical
signs of depression and weight loss progressing to wasting, and an incubation
time of 21-23 months. Moreover, western blots (WB) done on brain material from
the obex region have a molecular profile similar to CWD and distinct from
tissues of the cerebrum or the scrapie inoculum. However, results of microscopic
and IHC examination indicate that there are differences between the lesions
expected in CWD and those that occur in deer with scrapie: amyloid plaques were
not noted in any sections of brain examined from these deer and the pattern of
immunoreactivity by IHC was diffuse rather than plaque-like. After a natural
route of exposure, 100% of WTD were susceptible to scrapie. Deer developed
clinical signs of wasting and mental depression and were necropsied from 28 to
33 months PI. Tissues from these deer were positive for PrPSc by IHC and WB.
Similar to IC inoculated deer, samples from these deer exhibited two different
molecular profiles: samples from obex resembled CWD whereas those from cerebrum
were similar to the original scrapie inoculum. On further examination by WB
using a panel of antibodies, the tissues from deer with scrapie exhibit
properties differing from tissues either from sheep with scrapie or WTD with
CWD. Samples from WTD with CWD or sheep with scrapie are strongly immunoreactive
when probed with mAb P4, however, samples from WTD with scrapie are only weakly
immunoreactive. In contrast, when probed with mAb’s 6H4 or SAF 84, samples from
sheep with scrapie and WTD with CWD are weakly immunoreactive and samples from
WTD with scrapie are strongly positive. This work demonstrates that WTD are
highly susceptible to sheep scrapie, but on first passage, scrapie in WTD is
differentiable from CWD.
White-tailed Deer are Susceptible to Scrapie by Natural Route of Infection
Jodi D. Smith, Justin J. Greenlee, and Robert A. Kunkle; Virus and Prion
Research Unit, National Animal Disease Center, USDA-ARS
Interspecies transmission studies afford the opportunity to better
understand the potential host range and origins of prion diseases. Previous
experiments demonstrated that white-tailed deer are susceptible to sheep-derived
scrapie by intracranial inoculation. The purpose of this study was to determine
susceptibility of white-tailed deer to scrapie after a natural route of
exposure. Deer (n=5) were inoculated by concurrent oral (30 ml) and intranasal
(1 ml) instillation of a 10% (wt/vol) brain homogenate derived from a sheep
clinically affected with scrapie. Non-inoculated deer were maintained as
negative controls. All deer were observed daily for clinical signs. Deer were
euthanized and necropsied when neurologic disease was evident, and tissues were
examined for abnormal prion protein (PrPSc) by immunohistochemistry (IHC) and
western blot (WB). One animal was euthanized 15 months post-inoculation (MPI)
due to an injury. At that time, examination of obex and lymphoid tissues by IHC
was positive, but WB of obex and colliculus were negative. Remaining deer
developed clinical signs of wasting and mental depression and were necropsied
from 28 to 33 MPI. Tissues from these deer were positive for scrapie by IHC and
WB. Tissues with PrPSc immunoreactivity included brain, tonsil, retropharyngeal
and mesenteric lymph nodes, hemal node, Peyer’s patches, and spleen. This work
demonstrates for the first time that white-tailed deer are susceptible to sheep
scrapie by potential natural routes of inoculation. In-depth analysis of tissues
will be done to determine similarities between scrapie in deer after
intracranial and oral/intranasal inoculation and chronic wasting disease
resulting from similar routes of inoculation.
see full text ;
Envt.11: Swine Are Susceptible to Chronic Wasting Disease by Intracerebral
Inoculation
Justin Greenlee,† Robert Kunkle and Jodi Smith National Animal Disease
Center, ARS, USDA; Ames, IA USA †Presenting author; Email: justin.greenlee@ars.usda.gov
Transmissible spongiform encephalopathies (TSEs, prion diseases) are
chronic neurodegenerative diseases that occur in humans, cattle, sheep, goats,
cervids and a number of laboratory animal models. There is no evidence of the
natural occurrence of any form of TSE in the pig, but pigs have been shown to be
susceptible to Bovine Spongiform Encephalopathy (BSE) infection by
multiple-route parenteral challenge. However, pigs orally exposed at eight weeks
of age to large amounts of brain from cattle clinically affected with BSE did
not support infection after seven years of observation. In the US, feeding of
ruminant by-products to ruminants is prohibited, but feeding of ruminant
materials to swine, mink and poultry still occurs. Although unlikely, the
potential for swine to have access to TSE-contaminated feedstuffs exists. The
potential for swine to serve as a host for the agent of chronic wasting disease
(CWD) is unknown. The purpose of this study was to perform intracerebral
inoculation of the CWD agent to determine the potential of swine as a host for
the CWD agent and their clinical susceptibility. This study utilized 26 swine
randomly divided into controls (n = 6) and intracranial inoculates (n = 20). CWD
inoculum was a pooled 10% (w/v) homogenate derived from three white-tailed deer
clinically ill with CWD from three different sources (elk, white-tailed deer,
mule deer) and was given by a single intracranial injection of 0.75 ml.
Necropsies were done on ten animals at six months post inoculation (PI), at
approximately the time the pigs were expected to reach market weight. Additional
pigs have been necropsied due to intercurrent disease (primarily lameness) over
the course of the study (29–64 months). Samples collected at necropsy were
examined for spongiform change after routine staining (hematoxylin and eosin)
and for immunoreactivity to prion protein (PrPSc) by immunohistochemistry.
Further, brain samples from at least two regions were tested by western blot. No
results suggestive of spongiform encephalopathy were obtained from animals
necropsied at six months PI, but positive results after an incubation period of
only six months would be uncharacteristic. A single animal was positive for CWD
by IHC and WB at 64 months PI. Two inoculated pigs and one control pig remain
alive, so it is not possible to determine the attack rate of CWD in swine at
this time. However, lack of positive results in pigs necropsied at 29–56 months
PI and the long incubation of the single positive case suggest that swine are
unlikely to be affected by CWD if inoculated by a natural route.
Chronic Wasting Disease Susceptibility of Four North American Rodents
Chad J. Johnson1*, Jay R. Schneider2, Christopher J. Johnson2, Natalie A.
Mickelsen2, Julia A. Langenberg3, Philip N. Bochsler4, Delwyn P. Keane4, Daniel
J. Barr4, and Dennis M. Heisey2 1University of Wisconsin School of Veterinary
Medicine, Department of Comparative Biosciences, 1656 Linden Drive, Madison WI
53706, USA 2US Geological Survey, National Wildlife Health Center, 6006
Schroeder Road, Madison WI 53711, USA 3Wisconsin Department of Natural
Resources, 101 South Webster Street, Madison WI 53703, USA 4Wisconsin Veterinary
Diagnostic Lab, 445 Easterday Lane, Madison WI 53706, USA *Corresponding author
email: cjohnson@svm.vetmed.wisc.edu
We intracerebrally challenged four species of native North American rodents
that inhabit locations undergoing cervid chronic wasting disease (CWD)
epidemics. The species were: deer mice (Peromyscus maniculatus), white-footed
mice (P. leucopus), meadow voles (Microtus pennsylvanicus), and red-backed voles
(Myodes gapperi). The inocula were prepared from the brains of hunter-harvested
white-tailed deer from Wisconsin that tested positive for CWD. Meadow voles
proved to be most susceptible, with a median incubation period of 272 days.
Immunoblotting and immunohistochemistry confirmed the presence of PrPd in the
brains of all challenged meadow voles. Subsequent passages in meadow voles lead
to a significant reduction in incubation period. The disease progression in
red-backed voles, which are very closely related to the European bank vole (M.
glareolus) which have been demonstrated to be sensitive to a number of TSEs, was
slower than in meadow voles with a median incubation period of 351 days. We
sequenced the meadow vole and red-backed vole Prnp genes and found three amino
acid (AA) differences outside of the signal and GPI anchor sequences. Of these
differences (T56-, G90S, S170N; read-backed vole:meadow vole), S170N is
particularly intriguing due its postulated involvement in "rigid loop" structure
and CWD susceptibility. Deer mice did not exhibit disease signs until nearly 1.5
years post-inoculation, but appear to be exhibiting a high degree of disease
penetrance. White-footed mice have an even longer incubation period but are also
showing high penetrance. Second passage experiments show significant shortening
of incubation periods. Meadow voles in particular appear to be interesting lab
models for CWD. These rodents scavenge carrion, and are an important food source
for many predator species. Furthermore, these rodents enter human and domestic
livestock food chains by accidental inclusion in grain and forage. Further
investigation of these species as potential hosts, bridge species, and
reservoirs of CWD is required.
please see ;
Title: Transmission of chronic wasting disease of mule deer to Suffolk
sheep following intracerebral inoculation
Authors
Hamir, Amirali Kunkle, Robert Cutlip, Randall - ARS RETIRED Miller, Janice
- ARS RETIRED Williams, Elizabeth - UNIV OF WYOMING, LARAMIE Richt, Juergen
Submitted to: Journal of Veterinary Diagnostic Investigation Publication
Type: Peer Reviewed Journal Publication Acceptance Date: June 20, 2006
Publication Date: November 1, 2006 Citation: Hamir, A.N., Kunkle, R.A., Cutlip,
R.C., Miller, J.M., Williams, E.S., Richt, J.A. 2006. Transmission of chronic
wasting disease of mule deer to Suffolk sheep following intracerebral
inoculation. Journal of Veterinary Diagnostic Investigation. 18(6):558-565.
Interpretive Summary: Chronic wasting disease (CWD) has been identified in
captive and free ranging deer and elk since 1967. To determine the
transmissibility of CWD to sheep and to provide information about the disease
and tests for detection of CWD in sheep, 8 lambs were inoculated with brain
suspension from mule deer naturally affected with CWD. Two other lambs were kept
as controls. Only 1 sheep developed clinical disease at 35 months after
inoculation. The study was terminated at 72 months after the inoculation. At
that time one other sheep was found to be positive for the disease. It is
proposed that the host's genetic makeup may play a role in transmission of the
disease to domestic sheep. Impact. This is the first study which shows that it
is possible to transmit CWD to a small number of sheep. Technical Abstract:
Chronic wasting disease (CWD) has been identified in captive and free-ranging
cervids since 1967. To determine the transmissibility of CWD to sheep and to
provide information about clinical course, lesions, and suitability of currently
used diagnostic procedures for detection of CWD in sheep, 8 Suffolk lambs (4 QQ
and 4 QR at codon 171 of prion protein (PRNP) gene) were inoculated
intracerebrally with brain suspension from mule deer naturally affected with CWD
(CWD**md). Two other lambs (1 QQ and 1 QR at codon 171 of PRNP gene) were kept
as non-inoculated controls. Within 36 months post inoculation (MPI), 2 animals
became recumbent and were euthanized. However, only 1 sheep (euthanized at 35
MPI) had shown clinical signs that were consistent with those of scrapie.
Microscopic lesions of spongiform encephalopathy (SE) were seen in this sheep
and its tissues were positive for the abnormal prion protein (PrPres) by
immunohistochemistry and Western blot. Retrospective examination of the PRNP
genotype of this animal revealed that it was heterozygous (AV) at codon 136. In
the next 24 months, 3 other sheep were euthanized because of conditions
unrelated to TSE. The remaining 3 sheep remained non-clinical at the termination
of the study (72 MPI) and were euthanized at that time. One of these 3 revealed
SE and its tissues were positive for PrPres. These findings demonstrate that it
is possible to transmit CWD**md agent to sheep via the intracerebral route.
However, the host genotype may play a significant part in successful
transmission and incubation period of this agent.
Chronic wasting disease: Fingerprinting the culprit in risk assessments
Volume 6, Issue 1 January/February/March 2012 Pages 17 - 22 http://dx.doi.org/10.4161/pri.6.1.17776
Keywords: Fourier transform-infrared (FT-IR) spectroscopy, chronic wasting
disease (CWD), prion, prion protein (PrP), prion typing, protein misfolding
cyclic amplification (PMCA), risk assessment, seeding activity, strains,
transmissible spongiform encephalopathies (TSE)
Authors: Martin L. Daus and Michael Beekes View affiliations Hide
affiliations Martin L. Daus
P24 -Transmissible Spongiform Encephalopathies; Robert Koch-Institut;
Berlin, Germany Michael Beekes Corresponding author: BeekesM@rki.de P24
-Transmissible Spongiform Encephalopathies; Robert Koch-Institut; Berlin,
Germany
Abstract: Transmissible spongiform encephalopathies (prion diseases) in
animals may be associated with a zoonotic risk potential for humans as shown by
the occurrence of variant Creutzfeldt-Jakob disease in the wake of the bovine
spongiform encephalopathy epidemic. Thus, the increasing exposure of humans in
North America to cervid prions of chronic wasting disease (CWD) in elk and deer
has prompted comprehensive risk assessments. The susceptibility of humans to CWD
infections is currently under investigation in different studies using macaques
as primate models. The necessity for such studies was recently reinforced when
disease-associated prion protein and its seeding activity were detected in
muscles of clinically inconspicuous CWD-infected white-tailed deer (WTD).
Increasing evidence points to the existence of different CWD strains, and CWD
prions may also change or newly emerge over time. Therefore, CWD isolates
examined in macaques should be characterized as precisely as possible for their
molecular identity. On this basis other CWD field samples collected in the past,
present or future could be systematically compared with macaque-tested inocula
in order to assess whether they are covered by the ongoing risk assessments in
primates. CWD typing by Fourier transform-infrared spectroscopy of pathological
prion protein may provide a method of choice for this purpose.
snip...
Exposure of humans to CWD prions
Chronic wasting disease is a TSE in white-tailed deer, mule deer, Rocky
Mountain elk and moose. Over the past years this disease has shown a sustained
spread in captive as well as free-ranging cervids in North America.6,7 The
increasingly frequent and widespread 5 occurrence of affected animals is likely
to augment the exposure of humans to the CWD agent. Prion infectivity or
TSE-associated prion protein have been detected in the central and peripheral
nervous system, in a variety of lymphoid tissues as well as in heart muscle,
blood, saliva, feces and urine of CWD-infected cervids7. Also, infectious CWD
agent was found in antler velvet of elk and in skeletal muscles of mule deer
with chronic wasting disease.8,9 Thus, particularly persons processing cervid
carcasses, users of medicinal products made from antler velvet and consumers of
venison may be exposed to an elevated risk for contamination with CWD prions.
Recently, PrPTSE and its proteinaceous seeding activity could be directly
demonstrated, for the first time, in skeletal muscles of CWD-infected cervids.10
The animals examined in this study were farmed and free-ranging WTD for which no
clinical signs of CWD had been recognized. However, they had been officially
confirmed positive for CWD based on the detection of PrPTSE in brain tissue or
lymph nodes and were thus apparently in a state of pre or subclinical infection.
Muscles from such clinically inconspicuous carrier animals appear more likely to
enter the human food chain than meat from cervids that show symptoms of CWD.
Whether this may provide a relevant mode for the inadvertent foodborne
transmission of CWD prions is still unclear. Yet, the presence and seeding
activity of PrPTSE in skeletal muscles of pre- or subclinically infected WTD
reinforced the need to comprehensively assess whether humans are susceptible to
zoonotic CWD infections.
snip...
Transmissibility to humans
The current state of epidemiological research suggests a rather robust
barrier for the transmission of CWD to humans. Particularly, the surveillance of
human prion diseases in areas with a long history of endemic CWD such as
Colorado and Wyoming did not reveal evidence for zoonotic transmissions of the
disease to cervid hunters or consumers of meat from elk and deer.6,11 However,
as discussed by Belay et al.,6 the intensity of human exposure to CWD prions may
increase due to a further spread and rising prevalence of the disease in
cervids. Therefore, and with the generally long latency periods of human prion
diseases in mind, previous epidemiological findings cannot be readily
extrapolated. Until recently, experimental studies that pursued biochemical
approaches or used transgenic mice to ascertain the susceptibility of humans to
CWD infections consistently seemed to corroborate current epidemiological
findings: CWD-infected cervid brain tissue did not seed the conversion of PrPC
133 into PrPres in PMCA assays using brain homogenate from macaques or
transgenic mice expressing human PrPC as test substrate12 , and transgenic mice
overexpressing human PrPC were resistant to infection after intracerebral
challenge with CWD prions from mule deer.13 However, a study published by Barria
et al.14 in March 2011 found that cervid PrPTSE can seed the conversion of human
PrPC into PrPres by PMCA when the CWD agent has been previously passaged in
vitro or in vivo. Specifically, this was demonstrated for CWD prions from
naturally affected mule deer either passaged by serial PMCA using deer PrPC as
conversion substrate or in transgenic mice expressing cervid PrPC. The authors
of this study pointed out that CWD prions may undergo a gradual process of
change and adaptation via successive passages in the cervid population. They
concluded that the reported findings, if corroborated by infectivity assays, may
imply “that CWD prions have the potential to infect humans and that this ability
progressively increases with CWD spreading”.
snip...
Volume 18, Number 3—March 2012
Samuel E. Saunders1, Shannon L. Bartelt-Hunt, and Jason C. Bartz
Author affiliations: University of Nebraska-Lincoln, Omaha, Nebraska, USA
(S.E. Saunders, S.L. Bartelt-Hunt); Creighton University, Omaha (J.C. Bartz)
Synopsis
Occurrence, Transmission, and Zoonotic Potential of Chronic Wasting Disease
snip...
Most epidemiologic studies and experimental work have suggested that the
potential for CWD transmission to humans is low, and such transmission has not
been documented through ongoing surveillance (2,3). In vitro prion replication
assays report a relatively low efficiency of CWD PrPSc-directed conversion of
human PrPc to PrPSc (30), and transgenic mice overexpressing human PrPc are
resistant to CWD infection (31); these findings indicate low zoonotic potential.
However, squirrel monkeys are susceptible to CWD by intracerebral and oral
inoculation (32). Cynomolgus macaques, which are evolutionarily closer to humans
than squirrel monkeys, are resistant to CWD infection (32). Regardless, the
finding that a primate is orally susceptible to CWD is of concern.
snip...
Intraspecies and interspecies passage of the CWD agent may also increase
the risk for zoonotic CWD transmission. The CWD prion agent is undergoing serial
passage naturally as the disease continues to emerge. In vitro and in vivo
intraspecies transmission of the CWD agent yields PrPSc with an increased
capacity to convert human PrPc to PrPSc (30). Interspecies prion transmission
can alter CWD host range (38) and yield multiple novel prion strains (3,28). The
potential for interspecies CWD transmission (by cohabitating mammals) will only
increase as the disease spreads and CWD prions continue to be shed into the
environment. This environmental passage itself may alter CWD prions or exert
selective pressures on CWD strain mixtures by interactions with soil, which are
known to vary with prion strain (25), or exposure to environmental or gut
degradation.
Given that prion disease in humans can be difficult to diagnose and the
asymptomatic incubation period can last decades, continued research,
epidemiologic surveillance, and caution in handling risky material remain
prudent as CWD continues to spread and the opportunity for interspecies
transmission increases. Otherwise, similar to what occurred in the United
Kingdom after detection of variant CJD and its subsequent link to BSE, years of
prevention could be lost if zoonotic transmission of CWD is subsequently
identified,...
snip...
full text ;
Envt.06:
Zoonotic Potential of CWD: Experimental Transmissions to Non-Human Primates
Emmanuel Comoy,1,† Valérie Durand,1 Evelyne Correia,1 Aru Balachandran,2
Jürgen Richt,3 Vincent Beringue,4 Juan-Maria Torres,5 Paul Brown,1 Bob Hills6
and Jean-Philippe Deslys1
1Atomic Energy Commission; Fontenay-aux-Roses, France; 2Canadian Food
Inspection Agency; Ottawa, ON Canada; 3Kansas State University; Manhattan, KS
USA; 4INRA; Jouy-en-Josas, France; 5INIA; Madrid, Spain; 6Health Canada; Ottawa,
ON Canada
†Presenting author; Email: emmanuel.comoy@cea.fr
The constant increase of chronic wasting disease (CWD) incidence in North
America raises a question about their zoonotic potential. A recent publication
showed their transmissibility to new-world monkeys, but no transmission to
old-world monkeys, which are phylogenetically closer to humans, has so far been
reported. Moreover, several studies have failed to transmit CWD to transgenic
mice overexpressing human PrP. Bovine spongiform encephalopathy (BSE) is the
only animal prion disease for which a zoonotic potential has been proven. We
described the transmission of the atypical BSE-L strain of BSE to cynomolgus
monkeys, suggesting a weak cattle-to-primate species barrier. We observed the
same phenomenon with a cattleadapted strain of TME (Transmissible Mink
Encephalopathy). Since cattle experimentally exposed to CWD strains have also
developed spongiform encephalopathies, we inoculated brain tissue from
CWD-infected cattle to three cynomolgus macaques as well as to transgenic mice
overexpressing bovine or human PrP. Since CWD prion strains are highly
lymphotropic, suggesting an adaptation of these agents after peripheral
exposure, a parallel set of four monkeys was inoculated with CWD-infected cervid
brains using the oral route. Nearly four years post-exposure, monkeys exposed to
CWD-related prion strains remain asymptomatic. In contrast, bovinized and
humanized transgenic mice showed signs of infection, suggesting that CWD-related
prion strains may be capable of crossing the cattle-to-primate species barrier.
Comparisons with transmission results and incubation periods obtained after
exposure to other cattle prion strains (c-BSE, BSE-L, BSE-H and cattle-adapted
TME) will also be presented, in order to evaluate the respective risks of each
strain.
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.
Sunday, January 22, 2012
Chronic Wasting Disease CWD cervids interspecies transmission
now, let’s see what the authors said about this casual link, personal
communications years ago. see where it is stated NO STRONG evidence. so, does
this mean there IS casual evidence ????
“Our conclusion stating that we found no strong evidence of CWD
transmission to humans”
From: TSS (216-119-163-189.ipset45.wt.net)
Subject: CWD aka MAD DEER/ELK TO HUMANS ???
Date: September 30, 2002 at 7:06 am PST
From: "Belay, Ermias"
To:
Cc: "Race, Richard (NIH)" ; ; "Belay, Ermias"
Sent: Monday, September 30, 2002 9:22 AM
Subject: RE: TO CDC AND NIH - PUB MED- 3 MORE DEATHS - CWD - YOUNG HUNTERS
Dear Sir/Madam,
In the Archives of Neurology you quoted (the abstract of which was attached
to your email), we did not say CWD in humans will present like variant CJD.
That assumption would be wrong. I encourage you to read the whole article
and call me if you have questions or need more clarification (phone:
404-639-3091). Also, we do not claim that "no-one has ever been infected with
prion disease from eating venison." Our conclusion stating that we found no
strong evidence of CWD transmission to humans in the article you quoted or in
any other forum is limited to the patients we investigated.
Ermias Belay, M.D. Centers for Disease Control and Prevention
-----Original Message-----
From:
Sent: Sunday, September 29, 2002 10:15 AM
To: rr26k@nih.gov; rrace@niaid.nih.gov; ebb8@CDC.GOV
Subject: TO CDC AND NIH - PUB MED- 3 MORE DEATHS - CWD - YOUNG HUNTERS
Sunday, November 10, 2002 6:26 PM ......snip........end..............TSS
Thursday, April 03, 2008
A prion disease of cervids: Chronic wasting disease
2008 1: Vet Res. 2008 Apr 3;39(4):41
A prion disease of cervids: Chronic wasting disease
Sigurdson CJ.
snip...
*** twenty-seven CJD patients who regularly consumed venison were reported
to the Surveillance Center***,
snip...
full text ;
CWD ongoing experiment on humans, long term $$$
Monday, November 14, 2011
WYOMING Creutzfeldt Jakob Disease, CWD, TSE, PRION REPORTING 2011
Wednesday, November 16, 2011
Wisconsin Creutzfeldt Jakob Disease, CWD, TSE, PRION REPORTING 2011
Sunday, November 13, 2011
COLORADO CWD CJD TSE PRION REPORTING 2011
PLUS, THE CDC DID NOT PUT THIS WARNING OUT FOR THE WELL BEING OF THE DEER
AND ELK ;
Thursday, May 26, 2011
Travel History, Hunting, and Venison Consumption Related to Prion Disease
Exposure, 2006-2007 FoodNet Population Survey
Journal of the American Dietetic Association Volume 111, Issue 6 , Pages
858-863, June 2011.
NOR IS THE FDA recalling this CWD positive elk meat for the well being of
the dead elk ;
Wednesday, March 18, 2009
Noah's Ark Holding, LLC, Dawson, MN RECALL Elk products contain meat
derived from an elk confirmed to have CWD NV, CA, TX, CO, NY, UT, FL, OK RECALLS
AND FIELD CORRECTIONS: FOODS CLASS II
CJD9/10022
October 1994
Mr R.N. Elmhirst Chairman British Deer Farmers Association Holly Lodge
Spencers Lane BerksWell Coventry CV7 7BZ
Dear Mr Elmhirst,
CREUTZFELDT-JAKOB DISEASE (CJD) SURVEILLANCE UNIT REPORT
Thank you for your recent letter concerning the publication of the third
annual report from the CJD Surveillance Unit. I am sorry that you are
dissatisfied with the way in which this report was published.
The Surveillance Unit is a completely independant outside body and the
Department of Health is committed to publishing their reports as soon as they
become available. In the circumstances it is not the practice to circulate the
report for comment since the findings of the report would not be amended. In
future we can ensure that the British Deer Farmers Association receives a copy
of the report in advance of publication.
The Chief Medical Officer has undertaken to keep the public fully informed
of the results of any research in respect of CJD. This report was entirely the
work of the unit and was produced completely independantly of the the
Department.
The statistical results reqarding the consumption of venison was put into
perspective in the body of the report and was not mentioned at all in the press
release. Media attention regarding this report was low key but gave a realistic
presentation of the statistical findings of the Unit. This approach to
publication was successful in that consumption of venison was highlighted only
once by the media ie. in the News at one television proqramme.
I believe that a further statement about the report, or indeed statistical
links between CJD and consumption of venison, would increase, and quite possibly
give damaging credence, to the whole issue. From the low key media reports of
which I am aware it seems unlikely that venison consumption will suffer
adversely, if at all.
http://web.archive.org/web/20030511010117/http://www.bseinquiry.gov.uk/files/yb/1994/10/00003001.pdf
TSS
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