# Role of ASLNC168501 in regulating hair follicle stem cell activity via the AR/miR-128-3p/IGF-1 pathway

**Authors:** Xuewen Chen, Jingxiu Chai, Xuan Wang, Leimeng Gan, Qing Zhang, Hao Luo, Ling Wu, Yuchong Chen

PMC · DOI: 10.1186/s13287-026-04905-w · Stem Cell Research & Therapy · 2026-01-27

## TL;DR

This study identifies ASLNC168501 as a key regulator of hair follicle stem cell function in androgenetic alopecia, offering a new therapeutic target for hair regeneration.

## Contribution

The study reveals ASLNC168501 as a novel ceRNA that modulates the AR/miR-128-3p/IGF-1 pathway to restore hair follicle stem cell activity in androgenetic alopecia.

## Key findings

- ASLNC168501 functions as a ceRNA to sequester miR-128-3p and restore IGF-1 expression in hair follicle stem cells.
- Overexpression of ASLNC168501 promotes hair follicle regeneration in AGA mice by enhancing stem cell activity.
- Dysregulation of the AR/miR-128-3p/IGF-1 pathway is a key driver of hair follicle stem cell dysfunction in AGA.

## Abstract

Hair follicle stem cells (HFSCs) in androgenetic alopecia (AGA) patients exhibit functional impairment, reduced quantity, dysregulation, and androgen sensitivity, which hinder therapeutic strategies targeting HFSCs activation for hair regeneration. This study aims to elucidate the molecular mechanisms underlying HFSCs dysfunction in AGA and identify novel therapeutic targets.

We compared the expression of insulin-like growth factor 1 (IGF-1) in hair follicle tissues between AGA patients and healthy controls, analyzing transcriptional and protein-level differences. Bioinformatics, luciferase assays, and correlation analyses were employed to investigate the AR/miR-128-3p/IGF-1 pathway. Mechanistic studies were conducted using dermal papilla cells (DPCs) from both AGA patients and normal donors, which included RNA interaction assays and functional validation. Furthermore, the mechanism was validated by assessing the phenotypic changes in HFSCs co-cultured experiments. In vivo experiments in AGA mice were performed to evaluate hair follicle regeneration following ASLNC168501 overexpression.

IGF-1 expression was markedly reduced in hair follicles of AGA patients, with transcriptional alterations occurring later than changes at the protein-level alterations. Dysregulation of the AR/miR-128-3p/IGF-1 pathway in DPCs was identified as a key driver of HFSCs dysfunction: AR transcriptionally activates miR-128-3p, which in turn suppresses IGF-1 by binding to its 3’UTR. Consequently, the ability of IGF-1 to sustain and support HFSCs activity is impaired. The endogenous ASLNC168501 functions as a ceRNA, sequestering miR-128-3p and thereby restoring IGF-1 expression and secretion. Exogenous overexpression of ASLNC168501 in DPCs significantly promoted the self-renewal, proliferative and differentiation potential of co-cultured HFSCs in vitro and reversed hair follicle atrophy in AGA mice.

Our findings demonstrate that loss of ASLNC168501 accelerates the progression of AGA by activating AR/miR-128-3p/IGF-1 pathway activation. Acting as a pathway-independent RNA, ASLNC168501 holds a target significant therapeutic potential for restoring HFSCs function and promoting hair follicle regeneration. This finding highlights a novel molecular target and contributes to the advancement of precision medicine strategies for androgen-related alopecia.

The online version contains supplementary material available at 10.1186/s13287-026-04905-w.

## Linked entities

- **Genes:** IGF1 (insulin like growth factor 1) [NCBI Gene 3479], AR (androgen receptor) [NCBI Gene 367]
- **Proteins:** IGF1 (insulin like growth factor 1)
- **Diseases:** androgenetic alopecia (MONDO:0005339)

## Full-text entities

- **Genes:** IGF1 (insulin like growth factor 1) [NCBI Gene 3479] {aka IGF, IGF-I, IGFI, MGF}
- **Diseases:** AGA (MESH:D000505), androgen (MESH:D014770), hair follicle atrophy (MESH:D001284)
- **Species:** Mus musculus (house mouse, species) [taxon 10090], Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

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Source: https://tomesphere.com/paper/PMC12918351