Abstract
Food-borne transmission of prions can lead to infection of the gastrointestinal tract and neuroinvasion via the splanchnic and vagus nerves. Here we report that the transmission of transmissible mink encephalopathy (TME) is 100,000-fold more efficient by inoculation of prions into the tongues of hamsters than by oral ingestion. The incubation period following TME agent (hereinafter referred to as TME) inoculation into the lingual muscles was the shortest among the five nonneuronal routes of inoculation, including another intramuscular route. Deposition of the abnormal isoform of the prion protein, PrP(Sc), was first detected in the tongue and submandibular lymph node at 1 to 2 weeks following inoculation of the tongue with TME. PrP(Sc) deposits in the tongue were associated with individual axons, and the initial appearance of TME in the brain stem was found in the hypoglossal nucleus at 2 weeks postinfection. At later time points, PrP(Sc) was localized to brain cell groups that directly project to the hypoglossal nucleus, indicating the transneuronal spread of TME. TME PrP(Sc) entry into the brain stem preceded PrP(Sc) detection in the rostral cervical spinal cord. These results demonstrate that TME can replicate in both the tongue and regional lymph nodes but indicate that the faster route of brain invasion is via retrograde axonal transport within the hypoglossal nerve to the hypoglossal nucleus. Topical application of TME to a superficial wound on the surface of the tongue resulted in a higher incidence of disease and a shorter incubation period than with oral TME ingestion. Therefore, abrasions of the tongue in livestock and humans may predispose a host to oral prion infection of the tongue-associated cranial nerves. In a related study, PrP(Sc) was detected in tongues following the intracerebral inoculation of six hamster-adapted prion strains, which demonstrates that prions can also travel from the brain to the tongue in the anterograde direction along the tongue-associated cranial nerves. These findings suggest that food products containing ruminant or cervid tongue may be a potential source of prion infection for humans.
Highlights
Prion diseases are fatal neurodegenerative diseases of humans, livestock, and cervids
PrPSc deposits in the tongue were associated with individual axons, and the initial appearance of transmissible mink encephalopathy (TME) in the brain stem was found in the hypoglossal nucleus at 2 weeks postinfection
The majority of prion diseases have an infectious etiology, and food-borne infection has been linked to the transmission of transmissible mink encephalopathy (TME), bovine spongiform encephalopathy (BSE), and kuru in humans [21, 23, 58]
Summary
Prion diseases are fatal neurodegenerative diseases of humans, livestock, and cervids. Found in the LRS due to the lack of PrPC expression, but the mice were susceptible to hamster-adapted 263K scrapie by intraperitoneal (i.p.) inoculation and oral ingestion [43] These findings indicate that peripheral prion infection and neuroinvasion can be LRS independent and suggest that direct infection of the nervous system is an alternate route of infection. This conclusion is supported by additional studies in which peripheral scrapie, of immunodeficient mice (e.g., muMT and RAG-1 knockout mice, which lack functional germinal centers and are unable to replicate scrapie in the LRS) resulted in scrapie infection of the brain [20]. This finding has implications for public health, since livestock tongue is used in food products and may be a potential source of prion infection in humans
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