MedComm – Oncology (Sep 2024)

Next‐generation sequencing identifies that protein tyrosine phosphatase receptor type D mutation is favorable to immunotherapy in human cancer

  • Yongsheng Huang,
  • Jianwei Liao,
  • Ming Gao,
  • Sha Fu,
  • Faya Liang,
  • Yuanling Jiang,
  • Jiahuan Luo,
  • Jinghua Huang,
  • Ni Tan,
  • Danlan Wang,
  • Xinke Yin,
  • Shuwei Ren,
  • Peiliang Lin,
  • Renhui Chen,
  • Ping Han,
  • Xiaoming Huang,
  • Nengtai Ouyang

DOI
https://doi.org/10.1002/mog2.80
Journal volume & issue
Vol. 3, no. 3
pp. n/a – n/a

Abstract

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Abstract Protein tyrosine phosphatase receptors (PTPRs) play a crucial part in numerous tumor processes. However, the effect of PTPR mutations on the immune checkpoint inhibitor (ICI) response needs to be further clarified. Next‐generation sequencing was performed on 453 cancer patients in our internal cohort. The genomic alterations, tumor mutation burden (TMB), neoantigens, and immune‐related features/pathways of other cohorts were analyzed. Here, protein tyrosine phosphatase receptor type D (PTPRD) has a high mutation frequency and an intensified co‐occurrence with other PTPRs. Patients who responded to ICI therapy were enriched with the PTPRD mutation (PTPRD‐MUT). PTPRD‐MUT patients had a higher objective response rate (44.1% vs. 29.1%), TMB/neoantigens, and longer overall survival time than PTPRD‐wild‐type (PTPRD‐WT) patients. Genomic alterations with a higher mutation frequency of genes (such as LRP1B) were enriched in PTPRD‐MUT patients. More abundant immune cells (including CD8+ T cells and macrophages) and upregulated immune‐related genes were found in PTPRD‐MUT patients. Moreover, Gene sets enrichment analyses showed that multiple antitumor immune pathways are activated in PTPRD‐MUT patients. Therefore, PTPRD‐MUT is beneficial for immunotherapy of multiple cancer types and may be a predictive biomarker of patient clinical outcomes.

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