Your search keyword '"Shigehiro Tsukahara"' showing total 2 results

1. Importance of 3β-hydroxysteroid dehydrogenases and their clinical use in prostate cancer.

Author

Masaki Shiota, Satoshi Endo, Shigehiro Tsukahara, Tokiyoshi Tanegashima, Satoshi Kobayashi, Takashi Matsumoto, and Masatoshi Eto

Subjects

PROSTATE cancer, ANDROGEN receptors, CASTRATION-resistant prostate cancer, DEHYDROGENASES, PROSTATE tumors, TRANSCRIPTION factors

Abstract

Androgen receptor signaling is crucial for the development of treatment resistance in prostate cancer. Among steroidogenic enzymes, 3β-hydroxysteroid dehydrogenases (3βHSDs) play critical roles in extragonadal androgen synthesis, especially 3βHSD1. Increased expression of 3βHSDs is observed in castration-resistant prostate cancer tumors compared with primary prostate tumors, indicating their involvement in castration resistance. Recent studies link 3βHSD1 to resistance to androgen receptor signaling inhibitors. The regulation of 3βHSD1 expression involves various factors, including transcription factors, microenvironmental influences, and posttranscriptional modifications. Additionally, the clinical significance of HSD3B1 genotypes, particularly the rs1047303 variant, has been extensively studied. The impact of HSD3B1 genotypes on treatment outcomes varies according to the therapy administered, suggesting the potential of HSD3B1 genotyping for personalized medicine. Targeting 3βHSDs may be a promising strategy for prostate cancer management. Overall, understanding the roles of 3βHSDs and their genetic variations may enable the development and optimization of novel treatments for prostate cancer. [ABSTRACT FROM AUTHOR]

Published

2024

2. Androgen receptor mutations for precision medicine in prostate cancer

Author

Masaki Shiota, Shusuke Akamatsu, Shigehiro Tsukahara, Shohei Nagakawa, Takashi Matsumoto, and Masatoshi Eto

Subjects

Male, Cancer Research, Endocrinology, Diabetes and Metabolism, Androgen Antagonists, Prostatic Neoplasms, Castration-Resistant, Endocrinology, Oncology, Drug Resistance, Neoplasm, Receptors, Androgen, Mutation, Nitriles, Androgen Receptor Antagonists, Androgens, Humans, Precision Medicine

Abstract

Hormonal therapies including androgen deprivation therapy and androgen receptor (AR) pathway inhibitors such as abiraterone and enzalutamide have been widely used to treat advanced prostate cancer. However, treatment resistance emerges after hormonal manipulation in most prostate cancers, and it is attributable to a number of mechanisms, including AR amplification and overexpression, AR mutations, the expression of constitutively active AR variants, intra-tumor androgen synthesis, and promiscuous AR activation by other factors. Although various AR mutations have been reported in prostate cancer, specific AR mutations (L702H, W742L/C, H875Y, F877L, and T878A/S) were frequently identified after treatment resistance emerged. Intriguingly, these hot spot mutations were also revealed to change the binding affinity of ligands including steroids and antiandrogens and potentially result in altered responses to AR pathway inhibitors. Currently, precision medicine utilizing genetic and genomic data to choose suitable treatment for the patient is becoming to play an increasingly important role in clinical practice for prostate cancer management. Since clinical data between AR mutations and the efficacy of AR pathway inhibitors are accumulating, monitoring the AR mutation status is a promising approach for providing precision medicine in prostate cancer, which would be implemented through the development of clinically available testing modalities for AR mutations using liquid biopsy. However, there are few reviews on clinical significance of AR hot spot mutations in prostate cancer. Then, this review summarized the clinical landscape of AR mutations and discussed their potential implication for clinical utilization.

Published

2022