Single-cell RNA sequencing reveals a distinct profile of bone immune microenvironment and decreased osteoclast differentiation in type 2 diabetic mice

The pathogenic effects of type 2 diabetes on bone tissue are gaining attention,but the cellular and molecular mechanisms underlying osteoimmunology are still unclear in diabetes-related bone diseases.We delineated the single-cell transcriptome of bone marrow cells from both wide type and type 2 diabetes mice,which provided the first detailed global profile of bone marrow cells and revealed a distinct bone immune microenvironment at the genetic level under type 2 diabetic condition.It was observed that osteoclast activity was inhibited due to a dysre-gulated cytokine network,which ultimately led to decreased osteoclast formation and differen-tiation.In type 2 diabetes mice,a specific Cd36+cluster(cluster 18,monocytes/macrophages 2)was identified as the precursor of osteoclasts with diminished differentiation potential.AP-1 was demonstrated to be the key transcription factor in the underlying mechanism.