SGK3 promotes estrogen receptor-positive breast cancer proliferation by activating STAT3/ZMIZ2 pathway to stabilise β-catenin

Background and purpose: Breast Cancer is a leading threat to women's health, with approximately 70% of cases being estrogen receptor-positive. SGK3 is regulated by estrogen and is positively associated with Estrogen Receptor expression, although its molecular role remains unclear.

Experimental approach: Proteomics was used to identify SGK3's downstream targets. Tissue microarray immunofluorescence evaluated SGK3 and ZMIZ2 expression in ER+ breast Cancer. Lentiviral-mediated knockdown and overexpression of SGK3 and/or ZMIZ2 assessed their effects on cell proliferation in vitro and in vivo. Chromatin immunoprecipitation (ChIP) analyzed p-STAT3 binding to the ZMIZ2 promoter, and Co-immunoprecipitation (Co-IP) examined ZMIZ2-β-catenin interaction.

Key results: SGK3 expression was elevated in breast tumour tissues correlating with reduced patient survival. Proteomic analysis identified ZMIZ2 as a downstream target of SGK3. Overexpression of SGK3 promoted the proliferation of estrogen receptor-positive breast Cancer in MCF-7 and T47D cells. Inhibition had the opposite effects. ZMIZ2 overexpression rescued the proliferation deficit in SGK3 knockdown cells. ZMIZ2 was found to bind and stabilises β-catenin. Knockdown of SGK3 led to β-catenin degradation via polyubiquitination, a process reversed by ZMIZ2 overexpression. STAT3 was identified as a downstream effector of SGK3 and its knockdown reduced cytoplasmic and nuclear p-STAT3 and STAT3, and inhibited ZMIZ2 and β-catenin expression. Celastrol suppressed estrogen receptor-positive breast Cancer cell proliferation by inhibiting the SGK3/STAT3/ZMIZ2/β-catenin pathway.

Conclusions and implications: SGK3 expression is associated with poorer survival rates, thus SGK3 is a potential therapeutic target. As celastrol can inhibit SGK3 expression it could be an effective therapeutic agent.

SGK3; STAT3; ZMIZ2; cell proliferation; estrogen receptor‐positive; β‐catenin.