Regulation of MCCC1 expression by a Parkinson’s disease-associated intronic variant: implications for pathogenesis

Shunsaku Sogabe; Hiroko Nakano; Yusuke Ogasahara; Pei Chieng Cha; Yuko Ando; Mariko Taniguchi-Ikeda; Ryusaku Matsumoto; Motoi Kanagawa; Kazuhiro Kobayashi; Shigeo Murayama; Takashi Aoi; Tatsushi Toda; Wataru Satake

doi:10.1038/s10038-025-01335-z

Regulation of MCCC1 expression by a Parkinson’s disease-associated intronic variant: implications for pathogenesis

Shunsaku Sogabe, Hiroko Nakano, Yusuke Ogasahara, Pei Chieng Cha, Yuko Ando, Mariko Taniguchi-Ikeda, Ryusaku Matsumoto, Motoi Kanagawa, Kazuhiro Kobayashi, Shigeo Murayama, Takashi Aoi, Tatsushi Toda, Wataru Satake

Clinical Genetics

Research output: Contribution to journal › Article › peer-review

Abstract

Parkinson’s disease (PD) is a common neurodegenerative disorder characterized by dopaminergic neuron loss and α-synuclein aggregation. While some familial cases result from single-gene mutations, most are sporadic, involving complex genetic and environmental interactions. Among PD risk loci identified through genome-wide association studies, MCCC1 encodes a mitochondrial enzyme essential for leucine catabolism; however, the causal variant remains unclear. Here, we investigated whether the intronic variant rs12637471 regulates MCCC1 mRNA expression and influences PD risk. Postmortem brain analysis revealed significantly elevated MCCC1 mRNA levels in G-allele carriers, consistent with peripheral tissue eQTL data from GTEx. Using CRISPR/Cas9-edited induced pluripotent stem cells, we generated isogenic lines differing only at rs12637471 and observed increased MCCC1 expression in G-allele dopaminergic neurons. Given MCCC1’s mitochondrial role, its dysregulation may impact mitochondrial homeostasis, autophagy, or inflammation, potentially contributing to PD pathogenesis.

Original language	English
Pages (from-to)	371-374
Number of pages	4
Journal	Journal of Human Genetics
Volume	70
Issue number	7
DOIs	https://doi.org/10.1038/s10038-025-01335-z
Publication status	Published - 07-2025

All Science Journal Classification (ASJC) codes

Genetics
Genetics(clinical)

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Sogabe, S., Nakano, H., Ogasahara, Y., Cha, P. C., Ando, Y., Taniguchi-Ikeda, M., Matsumoto, R., Kanagawa, M., Kobayashi, K., Murayama, S., Aoi, T., Toda, T., & Satake, W. (2025). Regulation of MCCC1 expression by a Parkinson’s disease-associated intronic variant: implications for pathogenesis. Journal of Human Genetics, 70(7), 371-374. https://doi.org/10.1038/s10038-025-01335-z

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title = "Regulation of MCCC1 expression by a Parkinson{\textquoteright}s disease-associated intronic variant: implications for pathogenesis",

abstract = "Parkinson{\textquoteright}s disease (PD) is a common neurodegenerative disorder characterized by dopaminergic neuron loss and α-synuclein aggregation. While some familial cases result from single-gene mutations, most are sporadic, involving complex genetic and environmental interactions. Among PD risk loci identified through genome-wide association studies, MCCC1 encodes a mitochondrial enzyme essential for leucine catabolism; however, the causal variant remains unclear. Here, we investigated whether the intronic variant rs12637471 regulates MCCC1 mRNA expression and influences PD risk. Postmortem brain analysis revealed significantly elevated MCCC1 mRNA levels in G-allele carriers, consistent with peripheral tissue eQTL data from GTEx. Using CRISPR/Cas9-edited induced pluripotent stem cells, we generated isogenic lines differing only at rs12637471 and observed increased MCCC1 expression in G-allele dopaminergic neurons. Given MCCC1{\textquoteright}s mitochondrial role, its dysregulation may impact mitochondrial homeostasis, autophagy, or inflammation, potentially contributing to PD pathogenesis.",

author = "Shunsaku Sogabe and Hiroko Nakano and Yusuke Ogasahara and Cha, \{Pei Chieng\} and Yuko Ando and Mariko Taniguchi-Ikeda and Ryusaku Matsumoto and Motoi Kanagawa and Kazuhiro Kobayashi and Shigeo Murayama and Takashi Aoi and Tatsushi Toda and Wataru Satake",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

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doi = "10.1038/s10038-025-01335-z",

language = "English",

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Sogabe, S, Nakano, H, Ogasahara, Y, Cha, PC, Ando, Y, Taniguchi-Ikeda, M, Matsumoto, R, Kanagawa, M, Kobayashi, K, Murayama, S, Aoi, T, Toda, T & Satake, W 2025, 'Regulation of MCCC1 expression by a Parkinson’s disease-associated intronic variant: implications for pathogenesis', Journal of Human Genetics, vol. 70, no. 7, pp. 371-374. https://doi.org/10.1038/s10038-025-01335-z

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AU - Sogabe, Shunsaku

AU - Nakano, Hiroko

AU - Ogasahara, Yusuke

AU - Cha, Pei Chieng

AU - Ando, Yuko

AU - Taniguchi-Ikeda, Mariko

AU - Matsumoto, Ryusaku

AU - Kanagawa, Motoi

AU - Kobayashi, Kazuhiro

AU - Murayama, Shigeo

AU - Aoi, Takashi

AU - Toda, Tatsushi

AU - Satake, Wataru

PY - 2025/7

Y1 - 2025/7

N2 - Parkinson’s disease (PD) is a common neurodegenerative disorder characterized by dopaminergic neuron loss and α-synuclein aggregation. While some familial cases result from single-gene mutations, most are sporadic, involving complex genetic and environmental interactions. Among PD risk loci identified through genome-wide association studies, MCCC1 encodes a mitochondrial enzyme essential for leucine catabolism; however, the causal variant remains unclear. Here, we investigated whether the intronic variant rs12637471 regulates MCCC1 mRNA expression and influences PD risk. Postmortem brain analysis revealed significantly elevated MCCC1 mRNA levels in G-allele carriers, consistent with peripheral tissue eQTL data from GTEx. Using CRISPR/Cas9-edited induced pluripotent stem cells, we generated isogenic lines differing only at rs12637471 and observed increased MCCC1 expression in G-allele dopaminergic neurons. Given MCCC1’s mitochondrial role, its dysregulation may impact mitochondrial homeostasis, autophagy, or inflammation, potentially contributing to PD pathogenesis.

AB - Parkinson’s disease (PD) is a common neurodegenerative disorder characterized by dopaminergic neuron loss and α-synuclein aggregation. While some familial cases result from single-gene mutations, most are sporadic, involving complex genetic and environmental interactions. Among PD risk loci identified through genome-wide association studies, MCCC1 encodes a mitochondrial enzyme essential for leucine catabolism; however, the causal variant remains unclear. Here, we investigated whether the intronic variant rs12637471 regulates MCCC1 mRNA expression and influences PD risk. Postmortem brain analysis revealed significantly elevated MCCC1 mRNA levels in G-allele carriers, consistent with peripheral tissue eQTL data from GTEx. Using CRISPR/Cas9-edited induced pluripotent stem cells, we generated isogenic lines differing only at rs12637471 and observed increased MCCC1 expression in G-allele dopaminergic neurons. Given MCCC1’s mitochondrial role, its dysregulation may impact mitochondrial homeostasis, autophagy, or inflammation, potentially contributing to PD pathogenesis.

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Regulation of MCCC1 expression by a Parkinson’s disease-associated intronic variant: implications for pathogenesis

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