Calbindin D28k Expression and the Absence of Apoptosis in the Cerebellum of Solatium bonariense L-lntoxicated Bovines

Solanum bonariense intoxication is characterized by cerebellar neuronal vacuolation, degeneration, and necrosis. Cerebellar Purkinje cells seem especially susceptible, but more research is needed to determine the pathogenesis of neuronal necrosis and the mechanism of Purkinje cell susceptibility. Calbindin D28k (CbD28k) is highly expressed in Purkinje cells and has been used as a marker for normal and degenerative Purkinje cells. The goal of this study was to describe S bonariense-induced disease by ascertaining Purkinje cell-specific degenerative changes using CbD28k expression and to correlate this with apoptosis in Purkinje cells, as determined using TUNEL (transferase-mediated dUTP-biotin nick end-labeling) and ultrastructural changes. In all cases, an increase in both dose and duration of S bonariense intoxication resulted in a decrease in the number of Purkinje cells. CbD28k immunohistochemistry was an excellent marker for Purkinje cells because immunoreactivity did not change in normal or degenerative tissues. This finding suggests that excessive calcium excitatory stimulation does not induce rapid neuronal degeneration and death. As found in previous studies, TUNEL tests and electron microscopy suggest that Purkinje cell degeneration and death are not occurring via an apoptotic process. These findings suggest that S bonariense poisoning induces progressive Purkinje cell death that is not mediated by excitotoxicity or apoptotic activation.Facultad de Ciencias Veterinaria

Calbindin D28k Expression and the Absence of Apoptosis in the Cerebellum of Solatium bonariense L-lntoxicated Bovines

Solanum bonariense intoxication is characterized by cerebellar neuronal vacuolation, degeneration, and necrosis. Cerebellar Purkinje cells seem especially susceptible, but more research is needed to determine the pathogenesis of neuronal necrosis and the mechanism of Purkinje cell susceptibility. Calbindin D28k (CbD28k) is highly expressed in Purkinje cells and has been used as a marker for normal and degenerative Purkinje cells. The goal of this study was to describe S bonariense-induced disease by ascertaining Purkinje cell-specific degenerative changes using CbD28k expression and to correlate this with apoptosis in Purkinje cells, as determined using TUNEL (transferase-mediated dUTP-biotin nick end-labeling) and ultrastructural changes. In all cases, an increase in both dose and duration of S bonariense intoxication resulted in a decrease in the number of Purkinje cells. CbD28k immunohistochemistry was an excellent marker for Purkinje cells because immunoreactivity did not change in normal or degenerative tissues. This finding suggests that excessive calcium excitatory stimulation does not induce rapid neuronal degeneration and death. As found in previous studies, TUNEL tests and electron microscopy suggest that Purkinje cell degeneration and death are not occurring via an apoptotic process. These findings suggest that S bonariense poisoning induces progressive Purkinje cell death that is not mediated by excitotoxicity or apoptotic activation.Facultad de Ciencias Veterinaria

Immunohistochemical analysis of cytoskeleton and ubiquitin in cerebellum of poisoned cattle by Solanum bonariense

El Solanum bonariense L., es un arbusto perenne, autóctono en Uruguay, Argentina y sur de Brasil. Al ser ingerido por los bovinos en pastoreo, les ocasiona una degeneración cortical cerebelosa, afectando específicamente a las células de Purkinje. Estas presentan el pericario extensamente vacuolado con desplazamiento del núcleo, con progresiva muerte neuronal. En los axones de estas neuronas se observa presencia de esferoides axonales en la sustancia blanca cerebelosa, que finalmente son sustituidos por microcavitaciones en la sustancia blanca. El objetivo del presente trabajo fue describir el patrón de inmunoreactividad contra diferentes elementos del citoesqueleto y la ubiquitina conjugada a proteínas marcadas para degradarse dentro de las células de Purkinje de cerebelos de bovinos intoxicados natural o experimentalmente por ingestión de Solanum bonariense L.Facultad de Ciencias Veterinaria

Calbindin d 28k expression in the cerebellum of normal and solanum bonariense L. Intoxicated bovines

La ingestión natural o experimental de Solanum bonariense L. ocasiona una degeneración cortical cerebelosa en bovinos. Esta lesión se debe a la degeneración específica de las células de Purkinje, postulándose que la misma se debe a alteraciones metabólicas específicas, demostradas previamente por estudios ultraestructurales e inmunohistoquímicos. La Calbindina-28kD (Cb28k) ha sido considerada como un marcador específico de células de Purkinje. La alteración de esta inmunoreacción se vincula al desarrollo de diferentes enfermedades neurodegenerativas en humanos. El objetivo del presente trabajo fue analizar la expresión de Cb28k en cerebelos de bovinos normales y en los intoxicados con Solanum bonariense L.Facultad de Ciencias Veterinaria

Calbindin D28k Expression and the Absence of Apoptosis in the Cerebellum of Solatium bonariense L-lntoxicated Bovines

Solanum bonariense intoxication is characterized by cerebellar neuronal vacuolation, degeneration, and necrosis. Cerebellar Purkinje cells seem especially susceptible, but more research is needed to determine the pathogenesis of neuronal necrosis and the mechanism of Purkinje cell susceptibility. Calbindin D28k (CbD28k) is highly expressed in Purkinje cells and has been used as a marker for normal and degenerative Purkinje cells. The goal of this study was to describe S bonariense-induced disease by ascertaining Purkinje cell-specific degenerative changes using CbD28k expression and to correlate this with apoptosis in Purkinje cells, as determined using TUNEL (transferase-mediated dUTP-biotin nick end-labeling) and ultrastructural changes. In all cases, an increase in both dose and duration of S bonariense intoxication resulted in a decrease in the number of Purkinje cells. CbD28k immunohistochemistry was an excellent marker for Purkinje cells because immunoreactivity did not change in normal or degenerative tissues. This finding suggests that excessive calcium excitatory stimulation does not induce rapid neuronal degeneration and death. As found in previous studies, TUNEL tests and electron microscopy suggest that Purkinje cell degeneration and death are not occurring via an apoptotic process. These findings suggest that S bonariense poisoning induces progressive Purkinje cell death that is not mediated by excitotoxicity or apoptotic activation.Facultad de Ciencias Veterinaria