Identification and validation of as a critical gene for prostate cancer development in obese people.

Prostate cancer (PCA) is one of the most common types of cancer and can seriously endanger the health of older men. Obesity is prevalent all around the world and triggered by lots of factors such as diet, environment and fat metabolism disorder can cause many neoplasms, including PCA. Evidence suggests that genetic changes increase the risk of PCA and obesity. However, the specific obesity-related genes leading to PCA are unknown. Obesity-related genes associated with PCA were identified and analyzed though three public electronic databases: Gene Expression Omnibus, The Cancer Genome Atlas, and Chinese Prostate Cancer Genome and Epigenome Atlas. The effect of obesity-related genes in PCA were analyzed using clinical data from different databases, while associations with immune cells were determined by TIMER web tool. The expression and function of obesity-related genes were verified using clinical samples from obese patients with PCA and PCA cells. We found that four genes, and , may lead to PCA occurrence in patients with obesity. In Gene Expression Omnibus database, and were downregulated, while and were upregulated. This trend was mainly preserved in the other electronic databases. We also discovered and can affect PCA progression, and all these genes were risk factors for castration-resistant prostate cancer. Moreover, can impact disease-free survival status of patients with PCA. These obesity-related genes were also correlated with immune cells and immune cell infiltration in PCA. We further uncovered that was downregulated in clinical PCA and castration-resistant prostate cancer samples from patients with obesity and decreased PCA cells proliferation. These results indicate that is essential for PCA development in people with obesity and can be a biomarker for predicting PCA occurrence and progression in obese people.