Virus-induced RGMa expression drives neurodegeneration in HTLV-1–associated myelopathy
Natsumi Araya, … , Kaoru Uchimaru, Yoshihisa Yamano
Natsumi Araya, … , Kaoru Uchimaru, Yoshihisa Yamano
Published April 30, 2025
Citation Information: JCI Insight. 2025;10(11):e184530. https://doi.org/10.1172/jci.insight.184530.
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Research Article Infectious disease Neuroscience

Virus-induced RGMa expression drives neurodegeneration in HTLV-1–associated myelopathy

Abstract

Human T-lymphotropic virus type 1–associated (HTLV-1–associated) myelopathy (HAM, also known as tropical spastic paraparesis) is a rare neurodegenerative disease with largely elusive molecular mechanisms, impeding targeted therapeutic advancements. This study aimed to identify the critical molecule responsible for neuronal damage in HAM, its source, and the regulatory mechanisms controlling its expression. Utilizing patient-derived cells and established cell lines, we discovered that HTLV-1 Tax, in conjunction with specificity protein 1 (Sp1), enhanced the expression of repulsive guidance molecule A (RGMa), a protein known to contribute to neuronal damage. RGMa expression was specifically upregulated in HTLV-1–infected cells from patients with HAM, particularly in those expressing HTLV-1 Tax. Furthermore, in CD4+ cells from patients with HAM, the level of H3K27me3 methylation upstream of the RGMA gene locus was reduced, making RGMA more prone to constitutive expression. We demonstrated that HTLV-1–infected cells in HAM inflict neuronal damage via RGMa. Crucially, the neutralizing antibody against RGMa, unasnemab (MT-3921), effectively mitigated this damage in a dose-responsive manner, highlighting RGMa’s pivotal role in neuronal damage and its potential as a therapeutic target for alleviating neuronal damage in HAM.

Authors

Natsumi Araya, Makoto Yamagishi, Makoto Nakashima, Naomi Asahara, Kazuhiro Kiyohara, Satoko Aratani, Naoko Yagishita, Erika Horibe, Izumi Ishizaki, Toshiki Watanabe, Tomoo Sato, Kaoru Uchimaru, Yoshihisa Yamano

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Figure 1

Neuropathic effects of HAM-PBMCs.

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Neuropathic effects of HAM-PBMCs. (A) The concentration of NF-L (pg/mL) ...
(A) The concentration of NF-L (pg/mL) in the supernatant when NB-1 cells were cocultured with HAM-PBMCs (n = 7) or HD-PBMCs (n = 7). (B) The concentration of NF-L (pg/mL) in the supernatant when NB-1 cells were cocultured with HAM-PBMCs (n = 9) and with mogamulizumab (antiCCR4) in a dose-dependent manner for 72 hours. (C) The comparison of RGMA mRNA gene expression levels using DNA microarray among normal CD4+ T cells (HD CD4+: n = 4), HAM patient–derived CD4+ T cells (HAM CD4+: n = 4), ACs (n = 2), and smoldering/chronic-type-ATL patient–derived (n = 3) HTLV-1–infected CD4+ T cells (Non-HAM infected CD4+ T cells: n = 5), and acute-type-ATL patient–derived HTLV-1–infected CD4+ T cells (Acute ATL infected cells: n = 3). (D) The comparison of the expression levels of the genes associated with the inhibition of neuroregeneration (OMG, MAG, RTN4, and WNT5A) between HD CD4+ (n = 4) and HAM CD4+ T cells (n = 4). (E) The enrichment levels of H3K27me3 –2916 bp upstream from the TSS of the RGMA gene locus in HD CD4+ (n = 3), HAM CD4+ (n = 4), and acute-ATL infected cells (n = 4). Data are shown as mean ± SD. **P < 0.01; ***P < 0.001 by unpaired t test (A and D) or 1-way ANOVA with Dunnett’s multiple-comparison test (B, C, and E). NF-L, neurofilament light chain.