Inhibition of Renalase Drives Tumour Rejection by Promoting T Cell Activation

Overview

Journal Eur J Cancer

Specialty Oncology

Date 2022 Feb 26

PMID 35219026

Authors

Xiaojia Guo

Shlomit Jessel

Rihao Qu

Yuval Kluger

Tian-Min Chen

Lindsay Hollander

Robert Safirstein

Bryce Nelson

Charles Cha

Marcus Bosenberg

Lucia B Jilaveanu

David Rimm

Carla V Rothlin

Harriet M Kluger

Gary V Desir

Affiliations

Soon will be listed here.

Abstract

Background: Although programmed cell death protein 1 (PD-1) inhibitors have revolutionised treatment for advanced melanoma, not all patients respond. We previously showed that inhibition of the flavoprotein renalase (RNLS) in preclinical melanoma models decreases tumour growth. We hypothesised that RNLS inhibition promotes tumour rejection by effects on the tumour microenvironment (TME).

Methods: We used two distinct murine melanoma models, studied in RNLS knockout (KO) or wild-type (WT) mice. WT mice were treated with the anti-RNLS antibody, m28, with or without anti-PD-1. 10X single-cell RNA-sequencing was used to identify transcriptional differences between treatment groups, and tumour cell content was interrogated by flow cytometry. Samples from patients treated with immunotherapy were examined for RNLS expression by quantitative immunofluorescence.

Results: RNLS KO mice injected with wild-type melanoma cells reject their tumours, supporting the importance of RNLS in cells in the TME. This effect was blunted by anti-cluster of differentiation 3. However, MØ-specific RNLS ablation was insufficient to abrogate tumour formation. Anti-RNLS antibody treatment of melanoma-bearing mice resulted in enhanced T cell infiltration and activation and resulted in immune memory on rechallenging mice with injection of melanoma cells. At the single-cell level, treatment with anti-RNLS antibodies resulted in increased tumour density of MØ, neutrophils and lymphocytes and increased expression of IFNγ and granzyme B in natural killer cells and T cells. Intratumoural Forkhead Box P3 + CD4 cells were decreased. In two distinct murine melanoma models, we showed that melanoma-bearing mice treated with anti-RNLS antibodies plus anti-PD-1 had superior tumour shrinkage and survival than with either treatment alone. Importantly, in pretreatment samples from patients treated with PD-1 inhibitors, high RNLS expression was associated with decreased survival (log-rank P = 0.006), independent of other prognostic variables.

Conclusions: RNLS KO results in melanoma tumour regression in a T-cell-dependent fashion. Anti-RNLS antibodies enhance anti-PD-1 activity in two distinct aggressive murine melanoma models resistant to PD-1 inhibitors, supporting the development of anti-RNLS antibodies with PD-1 inhibitors as a novel approach for melanomas poorly responsive to anti-PD-1.

Citing Articles

Low Renalase Levels in Newly Diagnosed CML: Dysregulation Sensitive to Modulation by Tyrosine Kinase Inhibitors.

Milenkovic J, Stojanovic D, Velickovic S, Djordjevic B, Marjanovic G, Milojkovic M Pathophysiology. 2024; 31(4):787-796.

PMID: 39728688 PMC: 11676128. DOI: 10.3390/pathophysiology31040053.

Chemical complementarity of tumor resident, T-cell receptor CDR3s and renalase-1 correlates with increased melanoma survival.

Zaman S, Gorelick F, Chrobrutskiy A, Chobrutskiy B, Desir G, Blanck G Oncotarget. 2024; 15:550-561.

PMID: 39102218 PMC: 11299663. DOI: 10.18632/oncotarget.28633.

The Multi-Faceted Nature of Renalase for Mitochondrial Dysfunction Improvement in Cardiac Disease.

Stojanovic D, Stojanovic M, Milenkovic J, Velickov A, Ignjatovic A, Milojkovic M Cells. 2023; 12(12).

PMID: 37371077 PMC: 10297141. DOI: 10.3390/cells12121607.

RENALASE: DISCOVERY, BIOLOGY, AND THERAPEUTIC APPLICATIONS.

Desir G Trans Am Clin Climatol Assoc. 2022; 132:117-125.

PMID: 36196172 PMC: 9480547.

The Scientific Rationale for the Introduction of Renalase in the Concept of Cardiac Fibrosis.

Stojanovic D, Mitic V, Stojanovic M, Milenkovic J, Ignjatovic A, Milojkovic M Front Cardiovasc Med. 2022; 9:845878.

PMID: 35711341 PMC: 9193824. DOI: 10.3389/fcvm.2022.845878.

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