Profiles in discouragement: two studies of variability in the time course of smoking withdrawal symptoms

A mouse homolog of the Drosophila Disabled (dab) gene, disabled-1 (mdab1), encodes an adaptor molecule that functions in neural development. Targeted disruption of the mdab1 gene (mdab1-1 mice) leads to anomalies in the development of the cerebrum, hippocampus, and cerebellum. Here we describe a number of histologic abnormalities in the cerebellum of the mdab1-1 mouse. There is a complete absence of foliation, and most Purkinje cells are clumped in central clusters. However, lamination appears to develop normally in areas where the Purkinje cells and external granular layer are closely apposed. The granular layer forms a thin rind over most of the cerebellar surface, but is subdivided by both transverse and parasagittal boundaries. The Purkinje cells, identified by anti-zebrin II in the adult or anti-calbindin in the new born mdab1-1 mutant cerebellum, form a parasagittal banding pattern, similar to but distorted compared with the wild-type design. The data suggest that the development of the mdab1-1 cerebellum parallels the development of reeler. The reeler gene encodes an extracellular protein (Reelin) that is secreted by the external granular layer. Because Reelin expression is retained in the mdab1-1 mutant mouse, mDab1 p80 may act in a parallel pathway or downstream of Reelin, leading to the transformation of embryonic Purkinje cell clusters into the adult parasagittal bands.