Rewiring of the ubiquitinated proteome determines ageing in C. elegans.

Ageing is driven by a loss of cellular integrity. Given the major role of ubiquitin modifications in cell function, here we assess the link between ubiquitination and ageing by quantifying whole-proteome ubiquitin signatures in Caenorhabditis elegans. We find a remodelling of the ubiquitinated proteome during ageing, which is ameliorated by longevity paradigms such as dietary restriction and reduced insulin signalling.

A MAFG-lncRNA axis links systemic nutrient abundance to hepatic glucose metabolism.

Obesity and type 2 diabetes mellitus are global emergencies and long noncoding RNAs (lncRNAs) are regulatory transcripts with elusive functions in metabolism. Here we show that a high fraction of lncRNAs, but not protein-coding mRNAs, are repressed during diet-induced obesity (DIO) and refeeding, whilst nutrient deprivation induced lncRNAs in mouse liver. Similarly, lncRNAs are lost in diabetic humans.

The autophagy receptor p62/SQST-1 promotes proteostasis and longevity in C. elegans by inducing autophagy.

Autophagy can degrade cargos with the help of selective autophagy receptors such as p62/SQSTM1, which facilitates the degradation of ubiquitinated cargo. While the process of autophagy has been linked to aging, the impact of selective autophagy in lifespan regulation remains unclear. We have recently shown in Caenorhabditis elegans that transcript levels of sqst-1/p62 increase upon a hormetic heat shock, suggesting a role of SQST-1/p62 in stress response and aging.

Cell quality control mechanisms maintain stemness and differentiation potential of P19 embryonic carcinoma cells.

Given the relatively long life of stem cells (SCs), efficient mechanisms of quality control to balance cell survival and resistance to external and internal stress are required. Our objective was to test the relevance of cell quality control mechanisms for SCs maintenance, differentiation and resistance to cell death. We compared cell quality control in P19 stem cells (P19SCs) before and after differentiation (P19dCs).

LincRNA H19 protects from dietary obesity by constraining expression of monoallelic genes in brown fat.

Increasing brown adipose tissue (BAT) thermogenesis in mice and humans improves metabolic health and understanding BAT function is of interest for novel approaches to counteract obesity. The role of long noncoding RNAs (lncRNAs) in these processes remains elusive. We observed maternally expressed, imprinted lncRNA H19 increased upon cold-activation and decreased in obesity in BAT.

TRAP1 regulates autophagy in lung cancer cells.

Background: Expression of TRAP1, a member of the HSP90 chaperone family, has been implicated in tumour protective effects, based on its differential mitochondrial localization and function.

Design: This work was designed to provide new insights into the pathways involved in TRAP1-provided cytoprotection on NSCLC. For this, TRAP1-depleted A549 human NSCLC cells and MRC-5 normal lung fibroblasts were produced using a siRNA approach and main cellular quality control mechanisms were investigated.

Mitochondrial biology in cancer stem cells.

Cancer stem cells (CSCs) have been suggested to be responsible for tumor re-growth and relapse. Physiological and morphological knowledge of CSCs may be essential for the development of new therapeutic strategies targeting cancer development, progression, and recurrence. Current research is focused on a deeper understanding of CSCs metabolic profiles, taking into consideration their energy demands.

Melatonin antiproliferative effects require active mitochondrial function in embryonal carcinoma cells.

Although melatonin oncostatic and cytotoxic effects have been described in different types of cancer cells, the specific mechanisms leading to its antitumoral effects and their metabolic context specificity are still not completely understood. Here, we evaluated the effects of melatonin in P19 embryonal carcinoma stem cells (CSCs) and in their differentiated counterparts, cultured in either high glucose medium or in a galactose (glucose-free) medium which leads to glycolytic suppression and increased mitochondrial metabolism. We found that highly glycolytic P19 CSCs were less susceptible to melatonin antitumoral effects while cell populations relying on oxidative metabolism for ATP production were more affected.

Shutting Down the Furnace: Preferential Killing of Cancer Cells with Mitochondrial-Targeting Molecules.

Mitochondria are organelles which play an important role not only in cellular metabolism but also in controlling pathways related with cell death, ionic and redox regulation. Alterations in mitochondrial metabolism are implicated in a variety of diseases, including cancer. Cellular and mitochondrial metabolism are both altered during the different stages of tumor development.

Mitochondria in cancer stem cells: a target for therapy.

Complete knowledge about the evolution of the carcinogenic process has to include cancer stem cells (CSCs), which are essential to understand tumor occurrence, recurrence, and also its reduction rate after radio- and/or chemotherapeutic treatments. Understanding CSCs physiology and metabolism may be crucial for the development of novel effective therapies. Therefore, being mitochondria an undeniable target for cancer therapy and a central hub in metabolism and cell and death decisions, it is essential to take this organelle into account and explore its actions and involvements in the context of CSCs physiology.

Toxicity evaluation of some traditional African spices on breast cancer cells and isolated rat hepatic mitochondria.

Background: Fagara leprieuri (FL), Fagara xanthoxyloïdes (FX), Mondia whitei (MW) and Xylopia aethiopica (XA) are used in many African countries as food spices or in traditional medicine to treat several maladies. In this work, we (a) investigate whether the crude spice extracts present selective cytotoxicity for breast cancer cell lines and (b) investigate whether the same extracts affect the bioenergetics and calcium susceptibility of isolated liver mitochondrial fractions.

Results: All extracts were cytotoxic to the cell lines studied, with the exception of MW, which was less toxic for a normal cell line.