FSH, bone, belly and brain.
Se-Min KimFarhath SultanaSteven SimsJudit Gimenez-RoigVictoria LaurencinAnusha PallapatiSatish RojekarTal FrolingerWeibin ZhouAnisa GumerovaAnne MacdonaldVitaly RyuDaria LiznevaFunda KorkmazTony YuenMone ZaidiPublished in: The Journal of endocrinology (2024)
The pituitary gland orchestrates multiple endocrine organs by secreting tropic hormones, and therefore plays a significant role in a myriad of physiological processes, including skeletal modeling and remodeling, fat and glucose metabolism, and cognition. Expression of receptors for each pituitary hormone and the hormone itself in the skeleton, fat, immune cells, and the brain suggest that their role is much broader than the traditionally attributed functions. FSH, believed solely to regulate gonadal function is also involved in fat and bone metabolism, as well as in cognition. Our emerging understanding of nonreproductive functions of FSH, thus, opens potential therapeutic opportunities to address detrimental health consequences during and after menopause, namely, osteoporosis, obesity, and dementia. In this review, we outline current understanding of the cross-talk between the pituitary, bone, adipose tissue, and brain through FSH. Preclinical evidence from genetic and pharmacologic interventions in rodent models, and human data from population-based observations, genetic studies, and a small number of interventional studies provide compelling evidence for independent functions of FSH in bone loss, fat gain, and congnitive impairment.
Keyphrases
- adipose tissue
- bone loss
- white matter
- bone mineral density
- insulin resistance
- resting state
- postmenopausal women
- mild cognitive impairment
- fatty acid
- high fat diet
- public health
- growth hormone
- functional connectivity
- metabolic syndrome
- soft tissue
- poor prognosis
- type diabetes
- healthcare
- cerebral ischemia
- endothelial cells
- genome wide
- multiple sclerosis
- weight loss
- mental health
- risk assessment
- gene expression
- cognitive impairment
- induced pluripotent stem cells
- human health
- long non coding rna
- machine learning
- brain injury
- health information
- dna methylation
- weight gain
- social media
- binding protein
- pluripotent stem cells