Clinical and laboratory characterization of patients with localized scleroderma and response to UVA-1 phototherapy: In vivo and in vitro skin models

Linda Tognetti; Camilla Marrocco; Andrea Carraro; Giuditta Guerrini; GIancarlo Mariotti; Elisa Cinotti; Pietro Rubegni

doi:10.1111/phpp.12786

Clinical and laboratory characterization of patients with localized scleroderma and response to UVA-1 phototherapy: In vivo and in vitro skin models

Photodermatol Photoimmunol Photomed. 2022 Nov;38(6):531-540. doi: 10.1111/phpp.12786. Epub 2022 Apr 3.

Authors

Linda Tognetti¹, Camilla Marrocco¹, Andrea Carraro¹, Giuditta Guerrini², GIancarlo Mariotti¹, Elisa Cinotti¹, Pietro Rubegni¹

Affiliations

¹ Dermatology Unit and Skin Bank Unit, Department of Clinical Surgical and Neuro-sciences, University of Siena, Siena, Italy.
² Laboratory of Molecular Microbiology and Biotechnology, Department of Medical Biotechnologies, University of Siena, Siena, Italy.

Abstract

Background/purpose: Localized scleroderma (LS) is a rare disease leading to progressive hardening and induration of the skin and subcutaneous tissues. LS is responsive to UVA-1 phototherapy, though its exact mechanism of action dermal fibrosis is yet to be fully elucidated. We aimed to investigate the molecular changes induced by UVA-1 rays in human primary fibroblasts cultures.

Methods: A total of 16 LS patients were treated with medium-dose UVA-1 phototherapy. At baseline, during and after therapy, Localized Scleroderma Assessment Tool, Dermatology Life Quality Index and lesions' staging and mapping were performed along with high-frequency ultrasound (HFUS) examination for dermal thickness assessment. Gene expression analysis for 23 mRNA transcripts, in vitro UVA-1 irradiation and viability tests were realized on lesional fibroblasts' primary cultures, before and 3 months after therapy.

Results: The dermal thickness, the LoSCAT and the DLQI progressively decreased starting from the last phototherapy session up to the 6 and 9 month follow-ups (-57% and -60%, respectively). Molecular gene analysis (rt-PCR) revealed that UVA-1 phototherapy exerts multiple effects: the activation of specific anti-fibrotic pathways (e.g., overexpression of CTHRC1 and metalloproteases 1, 2, 7, 8, 9, 12, suppression of TIMP-1), the downregulation of peculiar pro-fibrotic pathways (e.g., downregulation of TGF-ß, TGF-ßrII, Grb2, SMAD 2/3, TNRSF12A, CTGF) through a significant overexpression of IL-1ß; the stabilization of collagen synthesis acting on genes COL1A1, COL3A1, COL8A1, COL10A1, COL12A1.

Conclusion: UVA-1 phototherapy adds significant benefits in local tissue remodeling, rebalancing the alteration between pro-fibrotic and anti-fibrotic pathways; these changes can be well monitored by HFUS.

Keywords: UVA-1 phototherapy; high-frequency ultrasound; in vitro UVA-1 irradiation; localized scleroderma; primary fibroblast cultures.

MeSH terms

Extracellular Matrix Proteins / metabolism
Fibroblasts / metabolism
Humans
Phototherapy
Scleroderma, Localized* / genetics
Scleroderma, Localized* / metabolism
Scleroderma, Localized* / radiotherapy
Skin / metabolism
Ultraviolet Rays
Ultraviolet Therapy*

Substances

CTHRC1 protein, human
Extracellular Matrix Proteins