Researchers reported that the SUCLA2 gene is frequently involved in the deletion of the tumor suppressor gene RB1 in advanced prostate cancer. RB1 deletion makes cells resistant to hormone therapy but SUCLA2 deletion induces a metabolic weakness. The study showed that thymoquinone selectively killed SUCLA2-deficient prostate cancer cells in vitro and in vivo. The findings highlight a vulnerability of advanced prostate cancer cells that can be targeted by drugs.
source https://www.sciencedaily.com/releases/2020/10/201007123053.htm
Thursday, 8 October 2020
Related Posts
Dorsal navigation found in a flying insect
Alpine plant spins its own flavonoid wool
Defining the Hund physics landscape of two-orbital systems
Numerical study reveals origin of 'motion of the ocean' in the straits of Florida
New manufacturing technique for flexible electronics
First months decisive for immune system development
0 comments: