The mitochondrial respiratory chain from Rhodotorula mucilaginosa, an extremophile yeast.

Rhodotorula mucilaginosa survives extreme conditions through several mechanisms, among them its carotenoid production and its branched mitochondrial respiratory chain (RC). Here, the branched RC composition was analyzed by biochemical and complexome profiling approaches. Expression of the different RC components varied depending on the growth phase and the carbon source present in the medium. R. mucilaginosa RC is constituted by all four orthodox respiratory complexes (CI to CIV) plus several alternative oxidoreductases, in particular two type-II NADH dehydrogenases (NDH2) and one alternative oxidase (AOX). Unlike others, in this yeast the activities of the orthodox and alternative respiratory complexes decreased in the stationary phase. We propose that the branched RC adaptability is an important factor for survival in extreme environmental conditions; thus, contributing to the exceptional resilience of R. mucilaginosa.

An adenosine derivative promotes mitochondrial supercomplexes reorganization and restoration of mitochondria structure and bioenergetics in a diethylnitrosamine-induced hepatocellular carcinoma model.

Hepatocellular carcinoma (HCC) progression is associated with dysfunctional mitochondria and bioenergetics impairment. However, no data about the relationship between mitochondrial supercomplexes (hmwSC) formation and ATP production rates in HCC are available. Our group has developed an adenosine derivative, IFC-305, which improves mitochondrial function, and it has been proposed as a therapeutic candidate for HCC. We aimed to determine the role of IFC-305 on both mitochondrial structure and bioenergetics in a sequential cirrhosis-HCC model in rats. Our results showed that IFC-305 administration decreased the number and size of liver tumors, reduced the expression of tumoral markers, and reestablished the typical architecture of the hepatic parenchyma. The livers of treated rats showed a reduction of mitochondria number, recovery of the mtDNA/nDNA ratio, and mitochondrial length. Also, IFC-305 increased cardiolipin and phosphatidylcholine levels and promoted hmwSC reorganization with changes in the expression levels of hmwSC assembly-related genes. IFC-305 in HCC modified the expression of several genes encoding elements of electron transport chain complexes and increased the ATP levels by recovering the complex I, III, and V activity. We propose that IFC-305 restores the mitochondrial bioenergetics in HCC by normalizing the quantity, morphology, and function of mitochondria, possibly as part of its hepatic restorative effect.

Las enfermedades transmitidas por vectores y el potencial uso de Wolbachia, una bacteria endocelular obligada, para erradicarlas / Vector-borne diseases and the potential use of Wolbachia, an obligate endocellular bacterium, to eradicate them

Resumen Según la Organización Mundial de la Salud (OMS), 17% de las enfermedades infecciosas reportadas en el mundo son transmitidas por vectores artrópodos. Una alternativa para bloquear la transmisión es infectar a los vectores con una bacteria endocelular llamada Wolbachia. Diferentes investigaciones han demostrado que Wolbachia acorta la vida del mosquito, aumenta su resistencia ante la infección de algunos virus como dengue, Zika y Chikungunya, y provoca incompatibilidad citoplasmática, por lo que al liberar mosquitos machos infectados con Wolbachia en una población de hembras no infectadas los productos no son viables, disminuyendo drásticamente la población total. En el presente artículo se incluye una descripción general de las enfermedades infecciosas más comunes transmitidas por vectores así como una revisión del uso de Wolbachia como una posible herramienta para controlar su propagación.

Abstract According to the World and Health Organization (WHO), 17% of the worldwide reported infectious diseases are vector-borne. One alternative for blocking the transmission of these infectious agents is to infect the vectors with the endocellular bacterium Wolbachia. Several studies have shown that Wolbachia shortens mosquitos' lifespan and increases their resistance to some virus like Dengue, Zika or Chikungunya. Wolbachia also causes cytoplasmic incompatibility, so, when Wolbachia-infected male mosquitoes are released among an uninfected female population, the production of an offspring is not viable and the mosquito population decreases drastically. This article includes an overview of the most common vector-borne infectious diseases as well as a review of the use of Wolbachia as a possible tool for controlling the spread of vector-borne diseases.