Cross-talk of MicroRNA and hydrogen sulfide: A novel therapeutic approach for bone diseases.

Bone homeostasis requires a balance between the bone formation of osteoblasts and bone resorption of osteoclasts to maintain ideal bone mass and bone quality. An imbalance in bone remodeling processes results in bone metabolic disorders such as osteoporosis. Hydrogen sulfide (H 2 S), a gasotransmitter, has attracted the focus of many researchers due to its multiple physiological functions. It has been implicated in anti-inflammatory, vasodilatory, angiogenic, cytoprotective, anti-oxidative and anti-apoptotic mechanisms. H 2 S has also been shown to exert osteoprotective activity through its anti-inflammatory and anti-oxidative effects. However, the underlying molecular mechanisms by which H 2 S mitigates bone diseases are not completely understood. Experimental evidence suggests that H 2 S may regulate signaling pathways by directly influencing a gene in the cascade or interacting with some other gasotransmitter (carbon monoxide or nitric oxide) or both. MicroRNAs (miRNAs) are short non-coding RNAs which regulate gene expression by targeting, binding and suppressing mRNAs; thus controlling cell fate. Certainly, bone remodeling is also regulated by miRNAs expression and has been reported in many studies. MicroRNAs also regulate H 2 S biosynthesis. The inter-regulation of microRNAs and H 2 S opens a new possibility for exploring the H 2 S-microRNA crosstalk in bone diseases. However, the relationship between miRNAs, bone development, and H 2 S is still not well explained. This review focuses on miRNAs and their roles in regulating bone remodeling and possible mechanisms behind H 2 S mediated bone loss inhibition, H 2 S-miRNAs crosstalk in relation to the pathophysiology of bone remodeling, and future perspectives for miRNA-H 2 S as a therapeutic agent for bone diseases. [ABSTRACT FROM AUTHOR]