Roles of SP/KLF transcription factors in odontoblast differentiation: From development to diseases

Objectives A zinc‐finger transcription factor family comprising specificity proteins (SPs) and Krüppel‐like factor proteins (KLFs) plays an important role in dentin development and regeneration. However, a systematic regulatory network involving SPs/KLFs in odontoblast differentiation has not yet been described. This review examined the expression patterns of SP/KLF gene family members and their current known functions and mechanisms in odontoblast differentiation, and discussed prospective research directions for further exploration of mechanisms involving the SP/KLF gene family in dentin development. Materials and Methods Relevant literature on SP/KLF gene family members and dentin development was acquired from PubMed and Web of Science. Results We discuss the expression patterns, functions, and related mechanisms of eight members of the SP/KLF gene family in dentin development and genetic disorders with dental problems. We also summarize current knowledge about their complementary or synergistic actions. Finally, we propose future research directions for investigating the mechanisms of dentin development. Conclusions The SP/KLF gene family plays a vital role in tooth development. Studying the complex complementary or synergistic interactions between SPs/KLFs is helpful for understanding the process of odontoblast differentiation. Applications of single‐cell and spatial multi‐omics may provide a more complete investigation of the mechanism involved in dentin development.