Role of let-7 microRNAs in skeletal development
Kobayashi, Tatsuya   
Massachusetts General Hospital, Boston, MA, United States

The small regulatory RNAs, microRNAs (miRNAs), play important biological roles in various types of living organisms. In humans, defects in miRNA-dependent gene regulation are implicated in several diseases. Despite these facts, functions of miRNAs in the mammalian skeletal system have barely been studied. The let-7 family miRNAs constitute the largest potion of chondrocytic miRNAs. let-7 miRNAs regulate diverse biological functions that include regulation of developmental timing, cell proliferation and differentiation, cancer metastasis, and stem cell self-renewal. However, the physiological role of let-7 miRNAs in skeletal development is unknown. The goal of this research is to establish the role of let-7 miRNAs during skeletogenesis. We will investigate the role of let-7 miRNAs in the mouse skeletal system by suppressing and overexpressing let-7 miRNAs. In mice, let-7 miRNAs are encoded at 8 genomic loci. This extensive genetic multiplicity makes it difficult to perform a loss-of-function study using the conventional gene targeting strategy. To suppress multiple let-7 miRNAs in a tissue-specific fashion, we will misexpress the RNA-binding protein, Lin28, in the cartilage using a Cre-dependent binary system. Lin28 specifically inhibits processing of primary transcripts of let-7 miRNAs and thereby suppresses let-7 expression. The consequences of Lin28 misexpression in mice will be analyzed.
In Aim II, functions of let-7 miRNAs will be investigated by a gain-of-function study. let-7 miRNAs will be overexpressed in the cartilage using the same binary gene expression system. let-7 will also be co-expressed with Lin28 to determine the specific function of Lin28. This project should provide insights into the physiological role of let-7 miRNAs in skeletogenesis. In addition, the Cre-dependent expression systems for Lin28 and let-7 will be useful tools for studying the function of these genes in other tissues. Understanding of individual miRNAs is necessary for the development of potential miRNA-based treatment of skeletal diseases.

Public Health Relevance

The small regulatory RNAs, microRNAs regulate gene expression mainly at the post transcriptional level. let-7 microRNAs are the most abundant miRNA species in skeletal tissues. However, the physiological roles of let-7 miRNAs in skeletal tissues are unknown. This project aims to elucidate let-7 function in the mouse skeletal system using novel genetic tools. Understanding roles of individual miRNAs will provide a basis for potential therapeutic interventions for skeletal diseases.