Abstract
The striatum comprises a mosaic structure of striosomal and matrix compartments. Imbalanced neuronal activity between striosomes and matrix is implicated in neurological deficits in psychomotor and limbic functions. Because patients with autism spectrum disorder (ASD) are impaired in social communication and psychomotor function, it raises the possibility that abnormal striatal compartments may contribute to ASD pathogenesis. Here, we provide pathological evidence from human postmortem brains to support this hypothesis. Because ASD is a neurodevelopmental disease that emerges early in childhood, we analyzed juvenile and adolescent brains. Distinct patterns of PRODYNORPHIN-positive and calbindin-poor striosomes were detected in the caudate nucleus of control brains by in situ hybridization and immunohistochemistry. By contrast, PRODYNORPHIN-positive and calbindin-poor striosomes were decreased in the caudate nucleus of young ASD brains. Moreover, calbindin, a matrix marker, was aberrantly increased in the striosomal compartment, obscuring the boundaries between calbindin-poor striosomes and calbindin-rich matrix in ASD caudate nucleus. Calbindin-positive cells were decreased in the ASD matrix compartment. Collectively, our study has uncovered for the first time that aberrant striatal compartments occur in the caudate nucleus of human ASD brains, which suggests abnormal striatal compartmentation as a pathological signature that has previously been underestimated in ASD pathogenesis.
Highlights
Autism spectrum disorder (ASD) is characterized by deficits in social communication and repetitive behavior, and the etiology of ASD is complex and heterogeneous [1]
Calbindin-poor striosomes were less distinct in ASD caudate nucleus than those in controls, which was likely due to an ectopic increase in calbindinpositive cells in ASD striosomes
The present study is the first documentation to demonstrate the abnormality of striatal compartments in the caudate nucleus of human ASD brains, which suggests abnormal striatal compartmentation as a pathological signature in ASD pathogenesis
Summary
Autism spectrum disorder (ASD) is characterized by deficits in social communication and repetitive behavior, and the etiology of ASD is complex and heterogeneous [1]. The NICHD Brain and Tissue Bank for Developmental Disorders kindly provided human postmortem brain tissue blocks of the caudate nucleus from ASD patients (n = 6) and control subjects (n = 6). Consistent with the decrease in PDYN-positive striosomes, the percentage of the area taken by calbindin-poor striosomes was reduced by 54% in ASD caudate nucleus compared to control brains (Fig. 1d, d’, e, e’, h).
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