IQGAP3 is Relevant to Prostate Cancer: A Detailed Presentation of Potential Pathomechanisms

Overview

Journal J Adv Res

Specialties General Medicine
Science

Date 2023 Jan 21

PMID 36681115

Authors

Wenjuan Mei

Ying Dong

Yan Gu

Anil Kapoor

Xiaozeng Lin

Yingying Su

Sandra Vega Neira

Damu Tang

Affiliations

Soon will be listed here.

Abstract

Introduction: IQGAP3 possesses oncogenic actions; its impact on prostate cancer (PC) remains unclear.

Objective: We will investigate IQGAP3's association with PC progression, key mechanisms, prognosis, and immune evasion.

Methods: IQGAP3 expression in PC was examined by immunohistochemistry and using multiple datasets. IQGAP3 network was analyzed for pathway alterations and used to construct a multigene signature (SigIQGAP3NW). SigIQGAP3NW was characterized using LNCaP cell-derived castration-resistant PCs (CRPCs), analyzed for prognostic value in 26 human cancer types, and studied for association with immune evasion.

Results: Increases in IQGAP3 expression associated with PC tumorigenesis, tumor grade, metastasis, and p53 mutation. IQGAP3 correlative genes were dominantly involved in mitosis. IQGAP3 correlated with PLK1 and TOP2A expression at Spearman correlation/R = 0.89 (p ≤ 3.069e-169). Both correlations were enriched in advanced PCs and Taxane-treated CRPCs and occurred at high levels (R > 0.8) in multiple cancer types. SigIQGAP3NW effectively predicted cancer recurrence and poor prognosis in independent PC cohorts and across 26 cancer types. SigIQGAP3NW stratified PC recurrence after adjustment for age at diagnosis, grade, stage, and surgical margin. SigIQGAP3NW component genes were upregulated in PC, metastasis, LNCaP cell-produced CRPC, and showed an association with p53 mutation. SigIQGAP3NW correlated with immune cell infiltration, including Treg in PC and other cancers. RELT, a SigIQGAP3NW component gene, was associated with elevations of multiple immune checkpoints and the infiltration of Treg and myeloid-derived suppressor cells in PC and across cancer types. RELT and SigIQGAP3NW predict response to immune checkpoint blockade (ICB) therapy.

Conclusions: In multiple cancers, IQGAP3 robustly correlates with PLK1 and TOP2A expression, and SigIQGAP3NW and/or RELT effectively predict mortality risk and/or resistance to ICB therapy. PLK1 and TOP2A inhibitors should be investigated for treating cancers with elevated IQGAP3 expression. SigIQGAP3NW and/or RELT can be developed for clinical applications in risk stratification and management of ICB therapy.

Citing Articles

RELT Is Upregulated in Breast Cancer and Induces Death in Breast Cancer Cells.

Batiste M, Joy B, Yee C, Cho L, Christensen A, Abed I Biomedicines. 2025; 12(12.

PMID: 39767574 PMC: 11727564. DOI: 10.3390/biomedicines12122667.

PRKN-mediated the ubiquitination of IQGAP3 regulates cell growth, metastasis and ferroptosis in early-onset colorectal cancer.

Chen G, Cong L, Gu C, Li P J Bioenerg Biomembr. 2024; 56(6):645-655.

PMID: 39343867 DOI: 10.1007/s10863-024-10039-6.

Identification and validation of a costimulatory molecule-related signature to predict the prognosis for uveal melanoma patients.

Zhao M, Yu Y, Song Z Sci Rep. 2024; 14(1):9146.

PMID: 38644411 PMC: 11033288. DOI: 10.1038/s41598-024-59827-5.

The RELT Family of Proteins: An Increasing Awareness of Their Importance for Cancer, the Immune System, and Development.

Cusick J, Alcaide J, Shi Y Biomedicines. 2023; 11(10).

PMID: 37893069 PMC: 10603948. DOI: 10.3390/biomedicines11102695.

SOX9 Expression Is Increased in Alzheimer's Disease (AD) and Is Associated With Disease Progression and APOE4 Genotype: A Computational Approach.

Alamoudi A Cureus. 2023; 15(3):e36129.

PMID: 37065298 PMC: 10100190. DOI: 10.7759/cureus.36129.

References

Li T, Fan J, Wang B, Traugh N, Chen Q, Liu J . TIMER: A Web Server for Comprehensive Analysis of Tumor-Infiltrating Immune Cells. Cancer Res. 2017; 77(21):e108-e110. PMC: 6042652. DOI: 10.1158/0008-5472.CAN-17-0307. View

Gonzalez H, Hagerling C, Werb Z . Roles of the immune system in cancer: from tumor initiation to metastatic progression. Genes Dev. 2018; 32(19-20):1267-1284. PMC: 6169832. DOI: 10.1101/gad.314617.118. View

Ru B, Wong C, Tong Y, Zhong J, Zhong S, Wu W . TISIDB: an integrated repository portal for tumor-immune system interactions. Bioinformatics. 2019; 35(20):4200-4202. DOI: 10.1093/bioinformatics/btz210. View

Sanchez N, Miranda A, Funes J, Hevia G, Perez R, Leon J . Oncogenic transformation tunes the cross-talk between mesenchymal stem cells and T lymphocytes. Cell Immunol. 2014; 289(1-2):174-84. DOI: 10.1016/j.cellimm.2014.04.007. View

Fujita Y, Hayashi T, Kiyomitsu T, Toyoda Y, Kokubu A, Obuse C . Priming of centromere for CENP-A recruitment by human hMis18alpha, hMis18beta, and M18BP1. Dev Cell. 2007; 12(1):17-30. DOI: 10.1016/j.devcel.2006.11.002. View

Adachi M, Kawasaki A, Nojima H, Nishida E, Tsukita S . Involvement of IQGAP family proteins in the regulation of mammalian cell cytokinesis. Genes Cells. 2014; 19(11):803-20. DOI: 10.1111/gtc.12179. View

Choi B, Kim S, Kim Y, Lee D, Oh H, Han C . RELT negatively regulates the early phase of the T-cell response in mice. Eur J Immunol. 2018; 48(10):1739-1749. DOI: 10.1002/eji.201847633. View

Newman A, Steen C, Liu C, Gentles A, Chaudhuri A, Scherer F . Determining cell type abundance and expression from bulk tissues with digital cytometry. Nat Biotechnol. 2019; 37(7):773-782. PMC: 6610714. DOI: 10.1038/s41587-019-0114-2. View

Racle J, de Jonge K, Baumgaertner P, Speiser D, Gfeller D . Simultaneous enumeration of cancer and immune cell types from bulk tumor gene expression data. Elife. 2017; 6. PMC: 5718706. DOI: 10.7554/eLife.26476. View

10.

Zheng X, Xu H, Yi X, Zhang T, Wei Q, Li H . Tumor-antigens and immune landscapes identification for prostate adenocarcinoma mRNA vaccine. Mol Cancer. 2021; 20(1):160. PMC: 8645679. DOI: 10.1186/s12943-021-01452-1. View

11.

Ayers M, Lunceford J, Nebozhyn M, Murphy E, Loboda A, Kaufman D . IFN-γ-related mRNA profile predicts clinical response to PD-1 blockade. J Clin Invest. 2017; 127(8):2930-2940. PMC: 5531419. DOI: 10.1172/JCI91190. View

12.

Yan J, Ojo D, Kapoor A, Lin X, Pinthus J, Aziz T . Neural Cell Adhesion Protein CNTN1 Promotes the Metastatic Progression of Prostate Cancer. Cancer Res. 2016; 76(6):1603-14. DOI: 10.1158/0008-5472.CAN-15-1898. View

13.

Yao W, Chen Q, Li S, Jia X, Xu L, Wei L . RELT promotes the growth of esophageal squamous cell carcinoma by activating the NF-κB pathway. Cell Cycle. 2021; 20(13):1231-1241. PMC: 8331000. DOI: 10.1080/15384101.2021.1924451. View

14.

Taylor B, Schultz N, Hieronymus H, Gopalan A, Xiao Y, Carver B . Integrative genomic profiling of human prostate cancer. Cancer Cell. 2010; 18(1):11-22. PMC: 3198787. DOI: 10.1016/j.ccr.2010.05.026. View

15.

Dongol S, Zhang Q, Qiu C, Sun C, Zhang Z, Wu H . promotes cancer proliferation and metastasis in high-grade serous ovarian cancer. Oncol Lett. 2020; 20(2):1179-1192. PMC: 7377165. DOI: 10.3892/ol.2020.11664. View

16.

Gordetsky J, Epstein J . Grading of prostatic adenocarcinoma: current state and prognostic implications. Diagn Pathol. 2016; 11:25. PMC: 4784293. DOI: 10.1186/s13000-016-0478-2. View

17.

Ellinger J, Alajati A, Kubatka P, Giordano F, Ritter M, Costigliola V . Prostate cancer treatment costs increase more rapidly than for any other cancer-how to reverse the trend?. EPMA J. 2022; 13(1):1-7. PMC: 8886338. DOI: 10.1007/s13167-022-00276-3. View

18.

Huyghe N, Benidovskaya E, Stevens P, Van den Eynde M . Biomarkers of Response and Resistance to Immunotherapy in Microsatellite Stable Colorectal Cancer: Toward a New Personalized Medicine. Cancers (Basel). 2022; 14(9). PMC: 9105843. DOI: 10.3390/cancers14092241. View

19.

Finotello F, Mayer C, Plattner C, Laschober G, Rieder D, Hackl H . Molecular and pharmacological modulators of the tumor immune contexture revealed by deconvolution of RNA-seq data. Genome Med. 2019; 11(1):34. PMC: 6534875. DOI: 10.1186/s13073-019-0638-6. View

20.

Hua X, Long Z, Guo L, Wen W, Huang X, Zhang W . IQGAP3 Overexpression Correlates With Poor Prognosis and Radiation Therapy Resistance in Breast Cancer. Front Pharmacol. 2021; 11:584450. PMC: 7840781. DOI: 10.3389/fphar.2020.584450. View