Cerebellar Purkinje Cells Exhibit Increased Expression of HMGB-1 and Apoptosis in Congenital Hydrocephalic H-Tx Rats

Abstract

Highly integrated anatomic and functional interactions between the cerebrum and the cerebellum during development have been reported. In our previous study, we conducted a proteome analysis to identify the proteins present in the congenital noncommunicating hydrocephalus in the cerebellum. We found higher expression of high-mobility group box-1 protein (HMGB-1) in hydrocephalic H-Tx rats. We studied the expression pattern of HMGB-1 in the cerebellum. We studied congenital hydrocephalic H-Tx rats aged 1 day and 7 days along with age-matched nonhydrocephalic H-Tx and Sprague-Dawley rats as controls. Gene and protein expressions of HMGB-1 in the cerebellum were assayed by real-time polymerase chain reaction and Western blotting, respectively; furthermore, immunohistochemical analyses were performed by using HMGB-1 (indicator of apoptosis), single-stranded DNA; adhesion factor related to cell migration, HNK-1; and the Purkinje cell-specific antibody, calbindin. Cytoplasmic HMGB-1 expression observed in Purkinje cells in the 1-day-old hydrocephalic group was stronger than that in the nonhydrocephalic and Sprague-Dawley groups. Double fluorescent staining with single-stranded DNA confirmed that Purkinje cells were undergoing apoptosis. HNK-1 expression was lower in the Purkinje cell layer in the 7-day-old rats in the hydrocephalic group, and Purkinje cells were disrupted in comparison with the control groups. Morphological changes in the cerebellum were observed in the 7-day-old rats in the hydrocephalic group in comparison with the control groups. Our results suggest that cerebellar neuronal cell damage in the early postnatal period may be related to the higher expression of HMGB-1 in the Purkinje cells.