AIM: The hippocampus can be very sensitive to damage in the scrapie-infected mouse, a well-established animal model of prion diseases. Terminally ill scrapie-infected animals exhibit nearly complete loss of cornu ammonis (CA) 1 pyramidal neurons, but few studies have focused on the neuropathological lesions of the human hippocampus in autopsied brain tissue; in particular, few findings on differences in severity of pathology between the hippocampal and parahippocampal formations have been obtained. The aim of the present paper is to evaluate the human hippocampus of prion disease through neuropathological examination. METHODS: A systemic, detailed neuropathological study throughout the subdivisions of the hippocampus was carried out in 23 autopsied cases of prion diseases. Prion protein immunohistochemistry was performed in serial brain sections to determine the topography of prion deposits. RESULTS: Compared to lesions in other brain regions, hippocampal lesions were mild, despite numerous prion deposits. The distribution of prion deposits did not appear to be correlated with neuropathological changes. The present findings differed from the hippocampal pathology observed in scrapie-infected mice. In addition, differences in neuropathological severity were observed within the hippocampal formation. CONCLUSION: The human hippocampus may be protected from the neurotoxic effects of prion deposits.
AIM: The hippocampus can be very sensitive to damage in the scrapie-infectedmouse, a well-established animal model of prion diseases. Terminally ill scrapie-infected animals exhibit nearly complete loss of cornu ammonis (CA) 1 pyramidal neurons, but few studies have focused on the neuropathological lesions of the human hippocampus in autopsied brain tissue; in particular, few findings on differences in severity of pathology between the hippocampal and parahippocampal formations have been obtained. The aim of the present paper is to evaluate the human hippocampus of prion disease through neuropathological examination. METHODS: A systemic, detailed neuropathological study throughout the subdivisions of the hippocampus was carried out in 23 autopsied cases of prion diseases. Prion protein immunohistochemistry was performed in serial brain sections to determine the topography of prion deposits. RESULTS: Compared to lesions in other brain regions, hippocampal lesions were mild, despite numerous prion deposits. The distribution of prion deposits did not appear to be correlated with neuropathological changes. The present findings differed from the hippocampal pathology observed in scrapie-infectedmice. In addition, differences in neuropathological severity were observed within the hippocampal formation. CONCLUSION: The human hippocampus may be protected from the neurotoxic effects of prion deposits.
Authors: Vıctor Manuel Gómez-López; Amparo Viramontes-Pintos; Miguel Ángel Ontiveros-Torres; Linda Garcés-Ramírez; Fidel de la Cruz; Ignacio Villanueva-Fierro; Marely Bravo-Muñoz; Charles R Harrington; Sandra Martínez-Robles; Petra Yescas; Parménides Guadarrama-Ortíz; Mario Hernandes-Alejandro; Francisco Montiel-Sosa; Mar Pacheco-Herrero; José Luna-Muñoz Journal: J Alzheimers Dis Date: 2021 Impact factor: 4.472
Authors: Mirta García-Martínez; Leonardo M Cortez; Alicia Otero; Marina Betancor; Beatriz Serrano-Pérez; Rosa Bolea; Juan J Badiola; María Carmen Garza Journal: Int J Mol Sci Date: 2022-03-25 Impact factor: 5.923