Abstract Significant research interest has been focused on beige adipocytes, the activation of which improves glucose and lipid homeostasis, therefore representing new therapeutic opportunities for metabolic diseases. Various Cre/Lox-based strategies have been used to investigate the developmental history of beige adipocytes and how these cells adapt to environmental changes. Despite the significant advancement of our understanding of beige adipocyte biology, much of the molecular insights of the beige adipocyte, including its origin and cell type-specific function, remain to be further illustrated. It has previously been shown that Chrna2 (cholinergic receptor nicotinic alpha 2 subunit) has selective functionality in beige adipocytes. In this study, we explore the Chrna2-Cre-driven reporter expression in mouse beige adipocytes in vivo and in vitro. Our findings indicate that Chrna2-Cre expression is present selectively in multiple locular beige adipocytes in subcutaneous inguinal white adipose tissue (iWAT) and differentiated stromal vascular fraction from iWAT. Chrna2-Cre expression was detected in iWAT of young pups and mice after cold exposure where a significant number of beige adipocytes are present. Chrna2-Cre-driven reporter expression is permanent in iWAT postlabeling and can be detected in the iWAT of adult mice or mice that have been housed extensively at thermoneutrality after cold exposure, even though only “inactive dormant” beige adipocytes are present in these mice. Chrna2-Cre expression can also be increased by rosiglitazone treatment and β-adrenergic activation. This research, therefore, introduces the Chrna2-Cre line as a valuable tool for tracking the development of beige adipocytes and investigating beige fat function.