Mitochondrial classic metabolism and its often-underappreciated facets
João P Moura, Paulo J. Oliveira, Ana M. Urbano
Abstract
For many decades, mitochondria were essentially regarded as the main providers of the adenosine triphosphate (ATP) required to maintain the viability and function of eukaryotic cells, thus the widely popular metaphor “powerhouses of the cell”. Besides ATP generation – via intermediary metabolism – these intracellular organelles have also traditionally been known, albeit to a lesser degree, for their notable role in biosynthesis, both as generators of biosynthetic intermediates and/or as the sites of biosynthesis. From the 1990s onwards, the concept of mitochondria as passive organelles providing the rest of the cell, from which they were otherwise isolated, with ATP and biomolecules on an on-demand basis has been challenged by a series of paradigm-shifting discoveries. Namely, it was shown that mitochondria act as signaling effectors to upregulate ATP generation in response to growth-promoting stimuli and are actively engaged, through signaling and epigenetics, in the regulation of a plethora of cellular processes, ultimately deciding cell function and fate. With the focus of mitochondrial research increasingly placed in these “non-classical” functions, the centrality of mitochondrial intermediary metabolism to other mitochondrial functions tends to be overlooked. In this article, we revisit mitochondrial intermediary metabolism and illustrate how its intermediates, by-products and molecular machinery underpin other mitochondrial functions. A certain emphasis is given to frequently overlooked mitochondrial functions, namely the biosynthesis of iron–sulfur (Fe–S) clusters, the only known function shared by all mitochondria and mitochondrion-related organelles. The generation of reactive oxygen species (ROS) and their putative role in signaling is also discussed in detail. • The centrality of mitochondrial intermediary metabolism to other mitochondrial functions tends to be overlooked. • Mitochondrial metabolic intermediates, by-products and molecular machinery underpin other mitochondrial functions. • Biosynthesis of Fe–S clusters is the only known function shared by all mitochondria and mitochondrion-related organelles. • The mitochondrial electron transport chain (ETC) is at the crossroads between various cell fates, including apoptosis.