The structural insight into the functional modulation of human anion exchanger 3.

Anion exchanger 3 (AE3) is pivotal in regulating intracellular pH across excitable tissues, yet its structural intricacies and functional dynamics remain underexplored compared to other anion exchangers. This study unveils the structural insights into human AE3, including the cryo-electron microscopy structures for AE3 transmembrane domains (TMD) and a chimera combining AE3 N-terminal domain (NTD) with AE2 TMD (hAE32). Our analyzes reveal a substrate binding site, an NTD-TMD interlock mechanism, and a preference for an outward-facing conformation.

The structural basis of the pH-homeostasis mediated by the Cl/HCO exchanger, AE2.

The cell maintains its intracellular pH in a narrow physiological range and disrupting the pH-homeostasis could cause dysfunctional metabolic states. Anion exchanger 2 (AE2) works at high cellular pH to catalyze the exchange between the intracellular HCO and extracellular Cl, thereby maintaining the pH-homeostasis. Here, we determine the cryo-EM structures of human AE2 in five major operating states and one transitional hybrid state.

The structural basis for the phospholipid remodeling by lysophosphatidylcholine acyltransferase 3.

As the major component of cell membranes, phosphatidylcholine (PC) is synthesized de novo in the Kennedy pathway and then undergoes extensive deacylation-reacylation remodeling via Lands' cycle. The re-acylation is catalyzed by lysophosphatidylcholine acyltransferase (LPCAT) and among the four LPCAT members in human, the LPCAT3 preferentially introduces polyunsaturated acyl onto the sn-2 position of lysophosphatidylcholine, thereby modulating the membrane fluidity and membrane protein functions therein. Combining the x-ray crystallography and the cryo-electron microscopy, we determined the structures of LPCAT3 in apo-, acyl donor-bound, and acyl receptor-bound states.

Retroperitoneal ectopic pregnancy: A case report and literature review.

Retroperitoneal ectopic pregnancy (REP) is a rare type of pregnancy with retroperitoneal implantation of the embryo. Herein, we report a case of a 29-year-old female with REP admitted in our department. Moreover, we review the literatures published previously reporting REP with the aim to improve the understanding of diagnosis and treatment of REP.

Dermal-Epidermal Separation by Heat.

The skin contains three primary layers: epidermis, dermis, and hypodermis. Separation of epidermal components from the dermis (dermal-epidermal separation) is an important basic investigation technique for pharmacology, toxicology, and biology. There are different systems of epidermal separation, including typical methods of chemical, enzyme, heat, etc.

Dermal-Epidermal Separation by Chemical.

The skin contains three primary layers: epidermis, dermis, and hypodermis. Separation of epidermal components from dermis (dermal-epidermal separation) is an important basic investigation technique for pharmacology, toxicology, and biology. There are different systems of epidermal separation, including typical methods of chemical, enzyme, heat, etc.

Dermal-Epidermal Separation by Enzyme.

The skin contains three primary layers: epidermis, dermis, and hypodermis. Separation of epidermal components from dermis (dermal-epidermal separation) is an important basic investigation technique for pharmacology, toxicology, and biology. There are different systems of epidermal separation, including typical methods of chemical, enzyme, heat, etc.