CHRNA2: a new paradigm in beige thermoregulation and metabolism

Nonanoic acid and cholecystokinin induce beige adipogenesis

Beige adipocytes, crucial for thermogenesis, offer a potential therapeutic strategy for obesity. This study investigated the anti-obesity effects of nonanoic acid (NoA), medium-chain fatty acids, and cholecystokinin-8 (CCK-8) on beige adipogenesis in C3H10T1/2 mesenchymal stem cells (C3H10T1/2 MSCs). We observed a significant increase in cholecystokinin B receptor expression in beige adipocytes compared to preadipocytes. The co-treatment with NoA and CCK-8 enhanced beige adipocyte differentiation and lipid accumulation. Moreover, the co-treatment with NoA and CCK-8 upregulated the mRNA expression of thermogenic genes and increased mitochondrial activity more effectively than individual treatment. Specifically, NoA and CCK-8 co-treatment also elevated the protein expression of uncoupling protein 1 and peroxisome proliferator-activated receptor-gamma coactivator-1 alpha. These findings suggest that the additive effect of NoA and CCK-8 promotes the beiging/browning of body fat in beige adipogenesis, potentially serving as an effective approach in the prevention and treatment of obesity and insulin resistance.

Supplementary Information

The online version contains supplementary material available at 10.1007/s10068-024-01699-6.

Chrna2-driven CRE Is Expressed in Beige Adipocytes

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.

Nicotinic acetylcholine receptors in cancer: Limitations and prospects

Nicotinic acetylcholine receptors (nAChRs) have long been considered to solely mediate neurotransmission. However, their widespread distribution in the human body suggests a more diverse physiological role. Additionally, the expression of nAChRs is increased in certain cancers, such as lung cancer, and has been associated with cell proliferation, epithelial-to-mesenchymal cell transition, angiogenesis and apoptosis prevention. Several compounds that interact with these receptors have been identified as potential therapeutic agents. They have been tested as drugs for treating nicotine addiction, alcoholism, depression, pain and Alzheimer's disease. This review focuses on nAChR-mediated signalling in cancer, presenting opportunities for the development of innovative nAChR-based anticancer drugs. It displays the differences in expression of each nAChR subunit between normal and cancer cells for selected cancer types, highlighting their possible involvement in specific cases. Antagonists of nAChRs that could complement existing cancer therapies are summarised and critically discussed. We hope that this review will stimulate further research on the role of nAChRs in cancer potentially leading to innovative cancer therapies.

Immune cell cholinergic signaling in adipose thermoregulation and immunometabolism

Research focusing on adipose immunometabolism has been expanded from inflammation in white fat during obesity development to immune cell function regulating thermogenic fat, energy expenditure, and systemic metabolism. This opinion discusses our current understanding of how resident immune cells within the thermogenic fat niche may regulate whole-body energy homeostasis. Furthermore, various types of immune cells can synthesize acetylcholine (ACh) and regulate important physiological functions. We highlight a unique subset of cholinergic macrophages within subcutaneous adipose tissue, termed cholinergic adipose macrophages (ChAMs); these macrophages interact with beige adipocytes through cholinergic receptor nicotinic alpha 2 subunit (CHRNA2) signaling to induce adaptive thermogenesis. We posit that these newly identified thermoregulatory macrophages may broaden our view of immune system functions for maintaining metabolic homeostasis and potentially treating obesity and metabolic disorders.