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Effect of keratinocyte-intrinsic VISTA deletion on UV-induced type I interferon and inflammatory gene expression in mouse epidermis

ABSTRACT: This SuperSeries is composed of the SubSeries listed below.

ORGANISM(S): Mus musculus

PROVIDER: GSE335309 | GEO | 2026/06/16

REPOSITORIES: GEO

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	GSE335309_RAW.tar	Raw
	filelist.txt	Txt

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Effect of keratinocyte-intrinsic VISTA deletion on UV-induced type I interferon and inflammatory gene expression in mouse epidermis [scRNA-seq]

Project description:Type I interferon (IFN-I) signaling is a central driver of cutaneous lupus erythematosus (CLE), but the keratinocyte-intrinsic checkpoints that restrain UV-triggered IFN-I responses remain poorly defined. Here we report that the immune checkpoint VISTA (encoded by Vsir) is expressed in epidermal keratinocytes and acts cell-intrinsically to suppress cGAS–STING–dependent IFN-I induction following ultraviolet (UV) exposure. Conditional deletion of Vsir in keratinocytes (K14Cre-Vsir^fl/fl^) results in markedly elevated expression of interferon-stimulated genes (ISGs), chemokines, and antigen presentation machinery at baseline and is further amplified by acute UVB irradiation. Co-deletion of STING (Sting1) abrogates this hyperinflammatory transcriptional program, placing VISTA upstream of the cGAS–STING–IFN-I axis. Mechanistically, our data support a model in which VISTA restrains EGFR/LRIG1/NUMB-dependent stabilization of phosphorylated (pY245) STING, thereby tuning the magnitude of UV-induced IFN-I output. These findings identify a keratinocyte-intrinsic role for VISTA in suppressing sterile cutaneous inflammation and have translational relevance for photosensitive autoimmune skin disease and for cutaneous immune-related adverse events of VISTA-targeted therapies.

2026-06-16 | GSE335307 | GEO

Effect of keratinocyte-intrinsic VISTA deletion on UV-induced type I interferon and inflammatory gene expression in mouse epidermis [bulk RNA-seq]

Project description:(abstract)Type I interferon (IFN-I) signaling is a central driver of cutaneous lupus erythematosus (CLE), but the keratinocyte-intrinsic checkpoints that restrain UV-triggered IFN-I responses remain poorly defined. Here we report that the immune checkpoint VISTA (encoded by Vsir) is expressed in epidermal keratinocytes and acts cell-intrinsically to suppress cGAS–STING–dependent IFN-I induction following ultraviolet (UV) exposure. Conditional deletion of Vsir in keratinocytes (K14Cre-Vsir^fl/fl^) results in markedly elevated expression of interferon-stimulated genes (ISGs), chemokines, and antigen presentation machinery at baseline and is further amplified by acute UVB irradiation. Co-deletion of STING (Sting1) abrogates this hyperinflammatory transcriptional program, placing VISTA upstream of the cGAS–STING–IFN-I axis. Mechanistically, our data support a model in which VISTA restrains EGFR/LRIG1/NUMB-dependent stabilization of phosphorylated (pY245) STING, thereby tuning the magnitude of UV-induced IFN-I output. These findings identify a keratinocyte-intrinsic role for VISTA in suppressing sterile cutaneous inflammation and have translational relevance for photosensitive autoimmune skin disease and for cutaneous immune-related adverse events of VISTA-targeted therapies.

2026-06-16 | GSE335221 | GEO