This broad group of authors summarizes the impact of circadian factors on metabolic biology and offers recommendations on how to account for and report biological, environmental and experimental facto...

In this Review, Erez and colleagues examine the complex interactions among tumours, their microenvironment and the host, shaping a metabolic macroenvironment that drives cancer progression. They explo...

La sevillana Patricia Altea dirige a sus 36 años su propio grupo de investigación sobre Regulación Metabólica y Señalización en Cáncer en Cabimer para entender el porqué de la enfermedad

Valeros et al. identify rhodoquinone (RQ), an electron carrier present in mammalian mitochondria, that can deliver electrons to fumarate instead of O2 as the terminal electron acceptor. The authors de...

In this Review, Erez and colleagues examine the complex interactions among tumours, their microenvironment and the host, shaping a metabolic macroenvironment that drives cancer progression. They explo...

Inter-organ communication (IOC) is a complex mechanism involved in maintaining metabolic homeostasis and healthy aging. Dysregulation of distinct forms of IOC is linked to metabolic derangements and age-related pathologies, implicating these processes as a potential target for therapeutic intervention to promote healthy aging. In this review, we delve into IOC mediated by hormonal signaling, circulating factors, organelle signaling, and neuronal networks and examine their roles in regulating metabolism and aging. Given the role of the hypothalamus as a high-order control center for aging and longevity, we particularly emphasize the importance of its communication with peripheral organs and pave the way for a better understanding of this critical machinery in metabolism and aging.