Mutations in MAPT give rise to aneuploidy in animal models of tauopathy

Tau is a major microtubule-associated protein in brain neurons. Its misfolding and accumulation cause neurodegenerative diseases characterized by brain atrophy and dementia, named tauopathies. Genetic forms are caused by mutations of microtubule-associated protein tau gene (MAPT). Tau is expressed also in nonneural tissues such as lymphocytes. Tau has been recently recognized as a multifunctional protein, and in particular, some findings supported a role in genome stability. In fact, peripheral cells of patients affected by frontotemporal dementia carrying different MAPT mutations showed structural and numerical chromosome aberrations. The aim of this study was to assess chromosome stability in peripheral cell from two animal models of genetic tauopathy, JNPL3 and PS19 mouse strains expressing the human tau carrying the P301L and P301S mutations, respectively, to confirm the previous data on humans. After demonstrating the presence of mutated tau in spleen, we performed standard cytogenetic analysis of splenic lymphocytes from homozygous and hemizygous JNPL3, hemizygous PS19, and relevant controls. Losses and gains of chromosomes (aneuploidy) were evaluated. We detected a significantly higher level of aneuploidy in JNPL3 and PS19 than in control mice. Moreover, in JNPL3, the aneuploidy was higher in homozygotes than in hemizygotes, demonstrating a gene dose effect, which appeared also to be age independent. Our results show that mutated tau is associated with chromosome instability. It is conceivable to hypothesize that in genetic tauopathies the aneuploidy may be present also in central nervous system, possibly contributing to neurodegeneration

Chronic wasting disease and atypical forms of bovine spongiform encephalopathy and scrapie are not transmissible to mice expressing wild-type levels of human prion protein

Rona Barron - ORCID: 0000-0003-4512-9177 https://orcid.org/0000-0003-4512-9177Item not available in this repository.The association between bovine spongiform encephalopathy (BSE) and variant Creutzfeldt–Jakob disease (vCJD) has demonstrated that cattle transmissible spongiform encephalopathies (TSEs) can pose a risk to human health and raises the possibility that other ruminant TSEs may be transmissible to humans. In recent years, several novel TSEs in sheep, cattle and deer have been described and the risk posed to humans by these agents is currently unknown. In this study, we inoculated two forms of atypical BSE (BASE and H-type BSE), a chronic wasting disease (CWD) isolate and seven isolates of atypical scrapie into gene-targeted transgenic (Tg) mice expressing the human prion protein (PrP). Upon challenge with these ruminant TSEs, gene-targeted Tg mice expressing human PrP did not show any signs of disease pathology. These data strongly suggest the presence of a substantial transmission barrier between these recently identified ruminant TSEs and humans.https://doi.org/10.1099/vir.0.042507-093pubpub

Infectivity in Skeletal Muscle of Cattle with Atypical Bovine Spongiform Encephalopathy

The amyloidotic form of bovine spongiform encephalopathy (BSE) termed BASE is caused by a prion strain whose biological properties differ from those of typical BSE, resulting in a clinically and pathologically distinct phenotype. Whether peripheral tissues of BASE-affected cattle contain infectivity is unknown. This is a critical issue since the BASE prion is readily transmissible to a variety of hosts including primates, suggesting that humans may be susceptible. We carried out bioassays in transgenic mice overexpressing bovine PrP (Tgbov XV) and found infectivity in a variety of skeletal muscles from cattle with natural and experimental BASE. Noteworthy, all BASE muscles used for inoculation transmitted disease, although the attack rate differed between experimental and natural cases (∼70% versus ∼10%, respectively). This difference was likely related to different prion titers, possibly due to different stages of disease in the two conditions, i.e. terminal stage in experimental BASE and pre-symptomatic stage in natural BASE. The neuropathological phenotype and PrPres type were consistent in all affected mice and matched those of Tgbov XV mice infected with brain homogenate from natural BASE. The immunohistochemical analysis of skeletal muscles from cattle with natural and experimental BASE showed the presence of abnormal prion protein deposits within muscle fibers. Conversely, Tgbov XV mice challenged with lymphoid tissue and kidney from natural and experimental BASE did not develop disease. The novel information on the neuromuscular tropism of the BASE strain, efficiently overcoming species barriers, underlines the relevance of maintaining an active surveillance

Chronic wasting disease and atypical forms of bovine spongiform encephalopathy and scrapie are not transmissible to mice expressing wild-type levels of human prion protein

Rona Barron - ORCID: 0000-0003-4512-9177 https://orcid.org/0000-0003-4512-9177Item not available in this repository.The association between bovine spongiform encephalopathy (BSE) and variant Creutzfeldt–Jakob disease (vCJD) has demonstrated that cattle transmissible spongiform encephalopathies (TSEs) can pose a risk to human health and raises the possibility that other ruminant TSEs may be transmissible to humans. In recent years, several novel TSEs in sheep, cattle and deer have been described and the risk posed to humans by these agents is currently unknown. In this study, we inoculated two forms of atypical BSE (BASE and H-type BSE), a chronic wasting disease (CWD) isolate and seven isolates of atypical scrapie into gene-targeted transgenic (Tg) mice expressing the human prion protein (PrP). Upon challenge with these ruminant TSEs, gene-targeted Tg mice expressing human PrP did not show any signs of disease pathology. These data strongly suggest the presence of a substantial transmission barrier between these recently identified ruminant TSEs and humans.https://doi.org/10.1099/vir.0.042507-093pubpub

PrP immunohistochemistry of muscle samples from the Holstein-Friesian cow affected by natural BASE (#126752/09).

<p>PrP immunohistochemistry of muscle samples from the Holstein-Friesian cow affected by natural BASE (#126752/09).</p

PrP immunohistochemistry of muscle samples from Alpine brown cow experimentally infected with BASE (#995).

<p>PrP immunohistochemistry of muscle samples from Alpine brown cow experimentally infected with BASE (#995).</p

Transmission of BASE to Tgbov XV mice following inoculation of muscles from experimentally and naturally affected cattle.

<p>(A) Lesion profiles of mice infected with brain tissue from natural BASE (blue line) and BSE (green line), <i>longissimus dorsi</i> muscle from experimental BASE (red line) and <i>intercostalis</i> (bordeaux line) and <i>gluteus</i> (yellow line) muscles from natural BASE. Vacuolation was scored on a scale of 0–5 in the following brain areas: 1, dorsal medulla; 2, cerebellar cortex; 3, superior colliculus; 4, hypothalamus; 5, thalamus; 6, hippocampus; 7, septum; 8, retrosplenial and adjacent motor cortex; and 9, cingulated and adjacent motor cortex. Data are mean ± s.e.m. (B) Western blot analysis of proteinase K-digested brain samples of mice infected with brain homogenates from cattle with natural BASE (#12966/07) and BSE, <i>longissimus dorsi</i> muscle from cattle with experimental BASE (#995) and two different muscles from natural BASE (#12699/07). (C–M) Neuropathological changes of mice infected with brain (C–E) and muscle from cattle with experimental BASE (F–H), and muscle from cattle with natural BASE (I–M). Micrographs were obtained from corresponding areas of the thalamic region stained with haematoxylin-eosin (C,F,I) or labeled with the anti-PrP antibody 6H4. The severity of vacuolation and the type of PrP deposition, characterized by diffuse immunostaining of the neuropil with focal enhancement, is similar in all the samples analyzed. Scale bar = 100 µm.</p

PrP deposition in the muscles of natural BASE cattle.

<p>(A–C) PrP deposits in <i>peroneus</i> muscle from a cattle with natural BASE (#126752/09). The PrP-imunoreactive material was found in isolated muscle fibers with a scattered distribution (A,C) and was localized inside the cytoplasm in the form of small amorphous aggregates or granular deposits (B). Scale bar = 100 µm for figure A and C;  = 20 µm for figure B.</p