The role of corticotropin-releasing hormone (CRH) family in tumors.

The corticotropin-releasing hormone (CRH) family is widely distributed among the central nervous system and peripheral tissues, such as the digestive, cardiovascular, immune, reproductive, endocrine systems. The CRH family members are widely involved in the regulation of human cell biological processes, immune response, and regulation of inflammatory processes that can affect the occurrence and development of tumors. At present, CRH family members and their receptors can be detected in many tumor tissues, and some people think that members of the CRH family may be potential tumor treatment targets as they can affect cellular processes, such as proliferation, migration, invasion, and apoptosis. However currently, there is no systematic introduction to the relationship between the CRH family and various tumors. This review introduces the molecular regulation of the CRH family in tumor formation and seeks further targeted therapy.

Overview of organic anion transporters and organic anion transporter polypeptides and their roles in the liver.

Organic anion transporters (OATs) and organic anion transporter polypeptides (OATPs) are classified within two SLC superfamilies, namely, the SLC22A superfamily and the SLCO superfamily (formerly the SLC21A family), respectively. They are expressed in many tissues, such as the liver and kidney, and mediate the absorption and excretion of many endogenous and exogenous substances, including various drugs. Most are composed of 12 transmembrane polypeptide chains with the C-terminus and the N-terminus located in the cell cytoplasm. OATs and OATPs are abundantly expressed in the liver, where they mainly promote the uptake of various endogenous substrates such as bile acids and various exogenous drugs such as antifibrotic and anticancer drugs. However, differences in the locations of glycosylation sites, phosphorylation sites, and amino acids in the OAT and OATP structures lead to different substrates being transported to the liver, which ultimately results in their different roles in the liver. To date, few articles have addressed these aspects of OAT and OATP structures, and we study further the similarities and differences in their structures, tissue distribution, substrates, and roles in liver diseases.