Manganese therapy for dyslipidemia and plaque reversal in murine models

License to drive: Receptor-mediated ER exit of proteins and lipids

The secretory pathway, which begins at the endoplasmic reticulum (ER) through the COPII complex, is responsible for transporting proteins and lipid carriers to various destined cellular compartments or extracellular space. The fundamental mechanism by which the COPII operates is evolutionarily conserved. Nevertheless, the vast diversity of mammalian cargos poses significant challenges to the secretory pathway, especially considering the intricate physiology in vivo. Particularly, certain physiologically essential cargos, including procollagen and lipoproteins, appear to be oversized for these canonical carriers, implying the need for additional sophisticated regulation at the onset step so-called ER exit. Emerging evidence highlights the critical role of cargo receptors in selective sorting for ER export, illuminating the complex biology of the trafficking dynamics, which holds broad implications for human health and diseases.

The biogenesis and transport of triglyceride-rich lipoproteins

Triglyceride-rich lipoproteins (TRLs) play essential roles in human health and disease by transporting bulk lipids into the circulation. This review summarizes the fundamental mechanisms and diverse factors governing lipoprotein production, secretion, and regulation. Emphasizing the broader implications for human health, we outline the intricate landscape of lipoprotein research and highlight the potential coordination between the biogenesis and transport of TRLs in physiology, particularly the unexpected coupling of metabolic enzymes and transport machineries. Challenges and opportunities in lipoprotein biology with respect to inherited diseases and viral infections are also discussed. Further characterization of the biogenesis and transport of TRLs will advance both basic research in lipid biology and translational medicine for metabolic diseases.