What does this research mean for the field?

The long non-coding RNA MIR205HG modulates proliferation and differentiation in airway basal cells independently of miR-205, and its depletion induces cellular senescence and impairs epithelial homeostasis. Novelty: ClaimNovelty.NOVEL_FINDING. Consensus alignment: ConsensusAlignment.NEUTRAL.

What question did this study set out to answer?

This study aimed to explore the function of MIR205HG in airway basal cells and its role in regulating epithelial homeostasis.

May 20, 2026

A74-13 The Long Non-coding RNA MIR205HG Modulates Proliferation, Differentiation, and Cellular Senescence in Airway Basal Cells

Key Points

This study aimed to explore the function of MIR205HG in airway basal cells and its role in regulating epithelial homeostasis.
MIR205HG was silenced in primary normal human bronchial epithelial cells via siRNA transfection.
Gene expression was analyzed using qRT-PCR and bulk RNA-seq, and protein levels assessed by immunocytochemistry.
Cell proliferation and senescence were measured 96 hours post-transfection using specific assays.
MIR205HG silencing reduced its transcript without altering mature miR-205 levels.
Cell proliferation decreased, while the proportion of SA-β-gal-positive cells increased, indicating senescence.
Upregulation of CDKN1A/p21 and inflammation-related gene sets were observed, along with impaired organoid formation.

Abstract

Abstract Rationale Airway basal cells are tissue stem cells that sustain epithelial homeostasis through proliferation and differentiation. Long non-coding RNAs (lncRNAs) regulate key biological processes, including development, differentiation, and cellular senescence, yet the functions of most lncRNAs remain undefined. MIR205HG, an lncRNA that serves as the host transcript for miR-205, is preferentially expressed in airway basal cells. Although recent studies suggest miR-205-independent functions of MIR205HG, its function in airway basal cells remains unresolved. This study aimed to investigate the role of MIR205HG in airway basal cells. Methods MIR205HG was silenced in primary normal human bronchial epithelial (NHBE) cells via siRNA transfection. Gene expression was assessed by qRT-PCR or bulk RNA-seq, and protein levels by immunocytochemistry. Cell proliferation was measured at baseline and 96 h post-transfection. Cellular senescence was evaluated by SA-β-gal staining. For organoid culture, NHBE were transduced with lentiviral shRNA targeting MIR205HG. Results siRNA-mediated MIR205HG silencing reduced its transcript without affecting mature miR-205. Upon MIR205HG knockdown, transcripts of the basal markers KRT5 and KRT14 decreased. Cell proliferation decreased, whereas the proportion of SA-β-gal-positive cells increased. Consistent with cellular senescence, CDKN1A/p21 increased, while LMNB1/Lamin B1 decreased at both the mRNA and protein levels. Moreover, transcripts of IL6 and several MMPs were upregulated, indicating a senescence-associated secretory phenotype (SASP). Bulk RNA-seq revealed downregulation of cell-cycle gene sets and upregulation of inflammation-, collagen-metabolism-, and differentiation-related gene sets. MIR205HG knockdown impaired organoid formation (Figure). Conclusion In vitro, MIR205HG modulates proliferation and differentiation of airway basal cells independently of miR-205; its loss induces cellular senescence and impairs organoid formation, implicating a role in epithelial homeostasis. This abstract is funded by: None

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A74-13 The Long Non-coding RNA MIR205HG Modulates Proliferation, Differentiation, and Cellular Senescence in Airway Basal Cells

Key Points

Abstract

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