Phosphorylation of S122 in ERα is important for the skeletal response to estrogen treatment in male mice.
Karin L GustafssonHelen H FarmanSofia Movérare-SkrticVikte LionikaiteJianyao WuPetra HenningSara WindahlKlara SjögrenClaes OhlssonMarie K LagerquistPublished in: Scientific reports (2022)
Estrogen receptor alpha (ERα) signaling has beneficial skeletal effects in males. ERα signaling also affects other tissues, and to find bone-specific treatments, more knowledge regarding tissue-specific ERα signaling is needed. ERα is subjected to posttranslational modifications, including phosphorylation, which can influence ERα function in a tissue-specific manner. To determine the importance of phosphorylation site S122 (corresponding to human ERα site S118) for the skeleton and other tissues, male mice with a S122A mutation were used. Total areal bone mineral density was similar between gonadal intact S122A and WT littermates followed up to 12 months of age, and weights of estrogen-responsive organs normalized for body weight were unchanged between S122A and WT males at both 3 and 12 months of age. Interestingly, 12-month-old S122A males had decreased body weight compared to WT. To investigate if site S122 affects the estrogen response in bone and other tissues, 12-week-old S122A and WT males were orchidectomized (orx) and treated with estradiol (E2) or placebo pellets for four weeks. E2 increased cortical thickness in tibia in both orx WT (+ 60%, p < 0.001) and S122A (+ 45%, p < 0.001) males. However, the E2 effect on cortical thickness was significantly decreased in orx S122A compared to WT mice (- 24%, p < 0.05). In contrast, E2 affected trabecular bone and organ weights similarly in orx S122A and WT males. Thus, ERα phosphorylation site S122 is required for a normal E2 response specifically in cortical bone in male mice, a finding that may have implications for development of future treatments against male osteoporosis.
Keyphrases
- estrogen receptor
- bone mineral density
- postmenopausal women
- body weight
- body composition
- gene expression
- endoplasmic reticulum
- breast cancer cells
- healthcare
- protein kinase
- type diabetes
- endothelial cells
- magnetic resonance
- adipose tissue
- bone loss
- magnetic resonance imaging
- newly diagnosed
- drug delivery
- double blind