Abstract
Simple SummaryWhile targeting programmed cell death (PDCD) 1 is a central treatment against melanoma, little is known about the related protein PDCD4. We defined differences in melanoma PDCD4 subcellular localization (either total cellular or nuclear-only) during oncogenesis, evaluated its presence on tumor-infiltrating immune cells, and determined its impact on survival. High PDCD4 expression resulted in improved survival in patients with primary and intracranial but not extracranial metastatic melanoma. High PDCD4 levels in surrounding tumor tissue were also associated with increased infiltrating immune cells. PDCD4 may be a potentially useful biomarker in melanoma to help guide our understanding of patient prognosis. Methods to increase PDCD4 in those with melanoma brain metastases may also help improve disease response.Little is known about the subcellular localization and function of programmed cell death 4 (PDCD4) in melanoma. Our past studies suggest PDCD4 interacts with Pleckstrin Homology Domain Containing A5 (PLEKHA5) to influence melanoma brain metastasis outcomes, as high intracranial PDCD4 expression leads to improved survival. We aimed to define the subcellular distribution of PDCD4 in melanoma and in the tumor microenvironment during neoplastic progression and its impact on clinical outcomes. We analyzed multiple tissue microarrays with well-annotated clinicopathological variables using quantitative immunofluorescence and evaluated single-cell RNA-sequencing on a brain metastasis sample to characterize PDCD4+ immune cell subsets. We demonstrate differences in PDCD4 expression during neoplastic progression, with high tumor and stromal PDCD4 levels associated with improved survival in primary melanomas and in intracranial metastases, but not in extracranial metastatic disease. While the expression of PDCD4 is well-documented on CD8+ T cells and natural killer cells, we show that it is also found on B cells and mast cells. PDCD4 expression in the tumor microenvironment is associated with increased immune cell infiltration. Further studies are needed to define the interaction of PDCD4 and PLEKHA5 and to evaluate the utility of this pathway as a therapeutic target in melanoma brain metastasis.
Highlights
Melanoma is responsible for the majority of skin cancer-related deaths and has a high propensity to metastasize to the brain [1]
Expression changes have been associated with differences in melanoma aggressiveness in vitro, not much is known about the compartmentalization of programmed cell death 4 (PDCD4) expression in human melanoma tissue during metastatic progression
We have found that 5-year survival was improved in primary melanoma cases with high PDCD4 expression, but no survival differences were seen when evaluating PDCD4 expression in metastatic disease using a Tissue Microarray (TMA) primarily consisting of extracranial metastases
Summary
Melanoma is responsible for the majority of skin cancer-related deaths and has a high propensity to metastasize to the brain [1]. Systemic and local therapies including targeted therapy, immune checkpoint inhibitors, and stereotactic radiosurgery have significantly improved survival in patients with melanoma brain metastases but are only partially successful due to limited drug penetration through the blood–brain barrier and/or treatment-associated toxicities [2,3,4,5,6,7,8,9,10,11,12]. Uncovering key molecules involved in the process of brain metastasis and elucidating pathways associated with them is important given the potential for identifying novel drug targets and developing new therapeutic strategies to counter treatment resistance and enrich management options for this patient population. Our data suggested that PLEKHA5-mediated growth could be attributed to its role in regulating the cell cycle inhibitor, programmed cell death 4 (PDCD4), via crosstalk with the ubiquitin-proteasome and phosphoinositide 3-kinase/protein kinase
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