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Laura Elyse McCormick
Sept. 9, 2022

Understanding the stages of mitophagy. Defining subcellular localization. Read about papers on these topics recently published in the journal Molecular & Cellular Proteomics.

 

Working from the outside in

As cells adjust to the stresses of life, mitochondria also must adapt. Over time, mitochondria get damaged and then recycled by a specialized autophagy process called mitophagy.

Shown over time from left to right, mitochondria are broken down from the outside in during mitophagy.
Zittlau et al.
Shown over time from left to right, mitochondria are broken down from the outside
in during mitophagy.

During mitophagy, proteins are marked for degradation through ubiquitination. Phosphorylation works in tandem with ubiquitination, as each modification can provide positive or negative feedback for the other. In particular, mitophagy requires the E3 ubiquitin ligase parkin and the serine/threonine-protein kinase PINK1. Researchers have identified mutations in both enzymes in Parkinson’s disease, so understanding their function is critical.

Despite an abundance of literature, scientists still have key questions about the process of mitophagy. Some researchers have demonstrated that autophagosomes consume mitochondria all at once during mitophagy, although others suggest individual sections within the mitochondria can be broken down piece by piece.

In a recent published in the journal Molecular & Cellular Proteomics, Katharina I. Zittlau and colleagues at the University of T眉bingen describe using a three-tiered proteomic approach to examine parkin-dependent mitophagy in HeLa cells. After inducing mitophagy, the team quantified total protein levels over 18 hours to evaluate mitochondrial protein degradation in the presence or absence of functional parkin. They also measured changes in protein ubiquitination and phosphorylation.

Their data support an outside–in breakdown of mitochondria during mitophagy, showing evidence for the ubiquitination and degradation of proteins in the outer mitochondrial compartments first, with the inner compartments following later. Using a vast data set, the researchers also identified examples in which a phosphorylation event blocked or enhanced ubiquitination during mitophagy. In particular, they showed that dephosphorylation of voltage-dependent anion-selective channel protein 2 is required for its parkin-dependent ubiquitination and ultimate degradation.

This study provides detailed information that enhances our knowledge of mitophagy as well as the specific contribution of parkin to each stage of the process.

Mapping the cell

The cytoplasm is a densely packed yet well-organized space. A multitude of biochemical reactions occur simultaneously, each localized to a specific domain, such as inside the nucleus, on the mitochondrial surface or at the plasma membrane. As a result, the localization of RNA and proteins — as well as the intracellular trafficking to their final destination — must be tightly regulated. Disruption of this spatial organization can be problematic, as numerous diseases are characterized by mislocalized proteins.

Although researchers can gain a wealth of knowledge from global transcriptomic and proteomic data sets, the story is incomplete without spatial information. Local enrichment or depletion of macromolecules — often masked in whole-cell omics — regulates these biological pathways and, ultimately, cell function.

Josie A. Christopher and a team from the University of Cambridge recently published a comprehensive of methods used to study the subcellular localization of proteins and RNA in the journal Molecular & Cellular Proteomics. The authors provide a detailed overview of techniques such as microscopy-based assays, imaging mass cytometry, and coupling proteomics/transcriptomics with biochemical fractionations or proximity labeling. The advantages and limitations of each are discussed to help readers select the best methods for their own projects.

The techniques highlighted in this review will be crucial in answering basic questions about cellular organization as well as leading the way for translational research and new diagnostic approaches.

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Laura Elyse McCormick

Laura McCormick is a graduate student in the Department of Cell Biology and Physiology at the University of North Carolina at Chapel Hill.

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