The conversational AI "ChatGPT" outperforms medical students on a physiology university examination.

Artificial intelligence (AI) has gained massive interest with the public release of the conversational AI "ChatGPT," but it also has become a matter of concern for academia as it can easily be misused. We performed a quantitative evaluation of the performance of ChatGPT on a medical physiology university examination. Forty-one answers were obtained with ChatGPT and compared to the results of 24 students.

TRPV1 Channels Are New Players in the Reticulum-Mitochondria Ca Coupling in a Rat Cardiomyoblast Cell Line.

The Ca release in microdomains formed by intercompartmental contacts, such as mitochondria-associated endoplasmic reticulum membranes (MAMs), encodes a signal that contributes to Ca homeostasis and cell fate control. However, the composition and function of MAMs remain to be fully defined. Here, we focused on the transient receptor potential vanilloid 1 (TRPV1), a Ca-permeable ion channel and a polymodal nociceptor.

Sec61 complex/translocon: The role of an atypical ER Ca-leak channel in health and disease.

The heterotrimeric Sec61 protein complex forms the functional core of the so-called translocon that forms an aqueous channel in the endoplasmic reticulum (ER). The primary role of the Sec61 complex is to allow protein import in the ER during translation. Surprisingly, a completely different function in intracellular Ca homeostasis has emerged for the Sec61 complex, and the latter is now accepted as one of the major Ca-leak pathways of the ER.

Expression of the Calcium-Binding Protein CALB1 Is Induced and Controls Intracellular Ca Levels in Senescent Cells.

In response to many stresses, such as oncogene activation or DNA damage, cells can enter cellular senescence, a state of proliferation arrest accompanied by a senescence-associated secretory phenotype (SASP). Cellular senescence plays a key role in many physiopathological contexts, including cancer, aging and aging-associated diseases, therefore, it is critical to understand how senescence is regulated. Calcium ions (Ca) recently emerged as pivotal regulators of cellular senescence.

Variations in the TRPV1 gene are associated to exertional heat stroke.

Objectives: Exertional Heat Stroke (EHS) is one of the top three causes of sudden death in athletes. Extrinsic and intrinsic risk factors have been identified but the genetic causes still remain unclear. Our aim was to identify genes responsible for EHS, which is a necessary step to identify patients at risk and prevent crises.