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Neuroprotective Effects of σ 2 R/TMEM97 Receptor Modulators in the Neuronal Model of Huntington's Disease.

Jing JinNicolas ArbezJames J SahnYan LuKathryn T LinkensTimothy R HodgesAnthony TangRobyn WisemanStephen F MartinChristopher A Ross
Published in: ACS chemical neuroscience (2022)
Huntington's disease (HD) is a genetic neurodegenerative disease caused by an expanded CAG repeat in the Huntingtin ( HTT ) gene that encodes for an expanded polyglutamine (polyQ) repeat in exon-1 of the human mutant huntingtin (mHTT) protein. The presence of this polyQ repeat results in neuronal degeneration, for which there is no cure or treatment that modifies disease progression. In previous studies, we have shown that small molecules that bind selectively to σ 2 R/TMEM97 can have significant neuroprotective effects in models of Alzheimer's disease, traumatic brain injury, and several other neurodegenerative diseases. In the present work, we extend these investigations and show that certain σ 2 R/TMEM97-selective ligands decrease mHTT-induced neuronal toxicity. We first synthesized a set of compounds designed to bind to σ 2 R/TMEM97 and determined their binding profiles ( K i values) for σ 2 R/TMEM97 and other proteins in the central nervous system. Modulators with high affinity and selectivity for σ 2 R/TMEM97 were then tested in our HD cell model. Primary cortical neurons were cultured in vitro for 7 days and then co-transfected with either a normal HTT construct (Htt N-586-22Q/GFP) or the mHTT construct Htt-N586-82Q/GFP. Transfected neurons were treated with either σ 2 R/TMEM97 or σ 1 R modulators for 48 h. After treatment, neurons were fixed and stained with Hoechst, and condensed nuclei were quantified to assess cell death in the transfected neurons. Significantly, σ 2 R/TMEM97 modulators reduce the neuronal toxicity induced by mHTT, and their neuroprotective effects are not blocked by NE-100, a selective σ 1 R antagonist known to block neuroprotection by σ 1 R ligands. These results indicate for the first time that σ 2 R/TMEM97 modulators can protect neurons from mHTT-induced neuronal toxicity, suggesting that targeting σ 2 R/TMEM97 may lead to a novel therapeutic approach to treat patients with HD.
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