Immunohistochemical phenotypes of huntingtin-associated protein 1 in the enteric nervous system of adult mouse

成獣マウスの腸管神経系におけるHAP1の免疫組織化学的発現形態

Immunohistochemical phenotypes of huntingtin-associated protein 1 in the enteric nervous system of adult mouse

Degree Grantors Yamaguchi University

Huntingtin-associated protein 1 (HAP1) is a neural huntingtin interactor and being considered as a core molecule of stigmoid body (STB). Brain or spinal cord regions with abundant STB/HAP1 expression are usually spared from neurodegeneration, whereas the regions with little STB/HAP1 expression are always neurodegenerative targets. The enteric nervous system (ENS) can act as a potential portal for pathogenesis of neurodegenerative disorders. To date, the expression of HAP1 and its neurochemical characterization have never been examined there. In the current study, we determined the expression and immunohistochemical phenotypes of HAP1 in ENS of adult rodents using Western blotting and light/fluorescence microscopy. HAP1 immunoreactivity was strongly expressed in both myenteric and submucosal plexuses of ENS. STBs were observed in the cytoplasm of most of the HAP1-immunoractive (ir) cells in ENS. In myenteric plexus, a large number of calretinin, calbindin, NOS, VIP, ChAT, SP, somatostatin, and TH-ir neurons showed HAP1 immunoreactivity. In contrast, most of the CGRP-ir neurons were devoid of HAP1-immunoreactivity. In submucosal plexus, almost all the cholinergic secretomotor neurons containing ChAT/ CGRP/ somatostatin/ calretinin, non-cholinergic secretomotor neurons containing VIP/TH/calretinin and vasodilator neurons containing VIP/calretinin express HAP1. Our current study is the first to clarify that HAP1 is highly expressed in excitatory motor neurons, inhibitory motor neurons, and interneurons but almost absent in sensory neurons in myenteric plexus. While, HAP1 is expressed in all neuronal subgroups of Meissner’s plexuses. These suggest that due to lack of putative STB/HAP1 protectivity, the sensory neurons (Dogiel type II) might be more vulnerable to neurodegeneration than STB/HAP1-expressing Dogiel type I neurons in myenteric plexus and secretomotor/vasodilator in Meissner’s plexuses. Our current results may reflect the involvement of HAP1 in modulation of excitatory and inhibitory motor neuron functions in myenteric plexus and the secretomotor and vasodilator functions of submucosal neurons. It will be of great interest to elucidate the physiological or pathological roles of HAP1 in ENS. Our current results might lay a basic foundation for future studies that seek to clarify the physiological/pathological effects of STB/HAP1 in the ENS.

Creators Abu Md Mamun Tarif

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