4.5 Article

Specific detection and deletion of the sigma-1 receptor widely expressed in neurons and glial cells in vivo

Journal

JOURNAL OF NEUROCHEMISTRY
Volume 164, Issue 6, Pages 764-785

Publisher

WILEY
DOI: 10.1111/jnc.15693

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This study identified a specific antibody and established an immunohistochemical protocol to investigate the expression pattern of the chaperone protein sigma-1 receptor (S1R) in the mouse brain. The results showed widespread expression of S1R in different cell types, including neurons, interneurons, and glial cells. The findings also raised concerns over previously reported properties of S1R.
The chaperon protein sigma-1 receptor (S1R) has been discovered over 40 years ago. Recent pharmacological studies using S1R exogenous ligands demonstrated a promising therapeutical potential of targeting the S1R in several neurological disorders. Although intensive in vitro studies have revealed S1Rs are mainly residing at the membrane of the endoplasmic reticulum (ER), the cell-specific in vivo expression pattern of S1Rs is still unclear, mainly because of the lack of a reliable detection method which also prevented a comprehensive functional analysis. Here, first, we identified a highly specific antibody using S1R knockout (KO) mice and established an immunohistochemical protocol involving a 1% sodium dodecyl sulphate (SDS) antigen retrieval step. Second, we characterized the S1R expression in the mouse brain and can demonstrate that the S1R is widely expressed: in principal neurons, interneurons and all glial cell types. In addition, unlike reported in previous studies, we showed that the S1R expression in astrocytes is not colocalized with the astrocytic cytoskeleton protein GFAP. Thus, our results raise concerns over previously reported S1R properties. Finally, we generated a Cre-dependent S1R conditional KO mouse (S1R flox) to study cell-type-specific functions of the S1R. As a proof of concept, we successfully ablated S1R expressions in neurons or microglia employing neuronal and microglial Cre-expressing mice, respectively. In summary, we provide powerful tools to cell-specifically detect, delete and functionally characterize S1R in vivo.

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