Ruxolitinib inhibits cyclosporine-induced proliferation of cutaneous squamous cell carcinoma
Melody Abikhair Burgo, Nazanin Roudiani, Jie Chen, Alexis L. Santana, Nicole Doudican, Charlotte Proby, Diane Felsen, John A. Carucci
Melody Abikhair Burgo, Nazanin Roudiani, Jie Chen, Alexis L. Santana, Nicole Doudican, Charlotte Proby, Diane Felsen, John A. Carucci
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Research Article Dermatology Transplantation

Ruxolitinib inhibits cyclosporine-induced proliferation of cutaneous squamous cell carcinoma

Abstract

Organ transplant recipients (OTRs) on cyclosporine A (CSA) are prone to catastrophic cutaneous squamous cell carcinoma (SCC). Allograft-sparing, cancer-targeting systemic treatments are unavailable. We have shown increased risk for catastrophic SCC in OTRs via CSA-mediated induction of IL-22. Herein, we found that CSA drives SCC proliferation and tumor growth through IL-22 and JAK/STAT pathway induction. We in turn inhibited SCC growth with an FDA-approved JAK1/2 inhibitor, ruxolitinib. In human SCC cells, the greatest proliferative response to IL-22 and CSA treatment occurred in nonmetastasizing lines. IL-22 treatment upregulated JAK1 and STAT1/3 in A431 SCC cells. JAK/STAT pathway genes were highly expressed in tumors from a cohort of CSA-exposed OTRs and in SCC with high risk for metastasis. Compared with immunocompetent SCC, genes associated with innate immunity, response to DNA damage, and p53 regulation were differentially expressed in SCC from OTRs. In nude mice engrafted with human A431 cells, IL-22 and CSA treatment increased tumor growth and upregulated IL-22 receptor, JAK1, and STAT1/3 expression. Ruxolitinib treatment significantly reduced tumor volume and reversed the accelerated tumor growth. CSA and IL-22 exacerbate aggressive behavior in SCC. Targeting the IL-22 axis via selective JAK/STAT inhibition may reduce the progression of aggressive SCC in OTRs, without compromising immunosuppression.

Authors

Melody Abikhair Burgo, Nazanin Roudiani, Jie Chen, Alexis L. Santana, Nicole Doudican, Charlotte Proby, Diane Felsen, John A. Carucci

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Figure 4

Cyclosporine A exposure upregulates IL22RA1 expression and increases STAT1 expression in xenograft and patient tumors.

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Cyclosporine A exposure upregulates IL22RA1 expression and increases STA...
(A) PCR of mRNA extracted from cyclosporine A– (CSA–) and IL-22–treated tumor samples. (B) Immunohistochemistry demonstrated IL-22 receptor α (IL-22RA) expression in all tumors (shown at original magnification, ×10), with stronger staining in the CSA-treated tumors, (C) confirmed by immunoblot with quantification. (D) PCR of tumor mRNA was assessed for expression of markers downstream to IL-22. (E) NanoString digital gene expression analysis showed greater expression of STAT1 in tumors from CSA-exposed organ transplant recipients (OTRs) compared with normal skin (P < 0.01) and with high-risk tumors with perineural invasion (PNI). (F) Comparison of JAK/STAT gene expression via NanoString according to diagnosis group (normal, N; superficial, S; invasive, I; transplant, T; PNI, P), Brigham and Women’s Hospital (BWH) stage, histological differentiation (normal, N; well differentiated, W; moderately differentiated, M; poorly differentiated, P), and presence or absence of metastasis. Data represent the mean of 3+ samples ± SEM. *P < 0.05, **P < 0.01, ***P < 0.001, determined by 1-way ANOVA with Dunnett’s multiple comparisons test.