Maxim Averbukh scite author profile

The discovery and development of Caenorhabditis elegans as a model organism was influential in biology, particularly in the field of aging. Many historical and contemporary studies have identified thousands of lifespan-altering paradigms, including genetic mutations, transgenic gene expression, and hormesis, a beneficial, low-grade exposure to stress. With its many advantages, including a short lifespan, easy and low-cost maintenance, and fully sequenced genome with homology to almost two-thirds of all human genes, C. elegans has quickly been adopted as an outstanding model for stress and aging biology. Here, several standardized methods are surveyed for measuring lifespan and healthspan that can be easily adapted into almost any research environment, especially those with limited equipment and funds. The incredible utility of C. elegans is featured, highlighting the capacity to perform powerful genetic analyses in aging biology without the necessity of extensive infrastructure. Finally, the limitations of each analysis and alternative approaches are discussed for consideration.

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Large‐scale genetic screens identify BET‐1 as a cytoskeleton regulator promoting actin function and life span

Garcia

Bar‐Ziv

Averbukh

et al. 2022

Aging Cell

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The actin cytoskeleton is a three‐dimensional scaffold of proteins that is a regulatory, energyconsuming network with dynamic properties to shape the structure and function of the cell. Proper actin function is required for many cellular pathways, including cell division, autophagy, chaperone function, endocytosis, and exocytosis. Deterioration of these processes manifests during aging and exposure to stress, which is in part due to the breakdown of the actin cytoskeleton. However, the regulatory mechanisms involved in preservation of cytoskeletal form and function are not well‐understood. Here, we performed a multipronged, cross‐organismal screen combining a whole‐genome CRISPR‐Cas9 screen in human fibroblasts with in vivo Caenorhabditis elegans synthetic lethality screening. We identified the bromodomain protein, BET‐1, as a key regulator of actin function and longevity. Overexpression of bet‐1 preserves actin function at late age and promotes life span and healthspan in C. elegans. These beneficial effects are mediated through actin preservation by the transcriptional regulator function of BET‐1. Together, our discovery assigns a key role for BET‐1 in cytoskeletal health, highlighting regulatory cellular networks promoting cytoskeletal homeostasis.

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Surveying Low-Cost Methods to Measure Lifespan and Healthspan in <em>Caenorhabditis elegans</em>

Torres

Moaddeli

Averbukh

et al. 2022

JoVE

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Glial-derived mitochondrial signals impact neuronal proteostasis and aging

Bar‐Ziv¹,

Dutta²,

Hruby³

et al. 2023

Preprint

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The nervous system plays a critical role in maintaining whole-organism homeostasis; neurons experiencing mitochondrial stress can coordinate the induction of protective cellular pathways, such as the mitochondrial unfolded protein response (UPRMT), between tissues. However, these studies largely ignored non-neuronal cells of the nervous system. Here, we found that UPRMTactivation in four, astrocyte-like glial cells in the nematode,C. elegans, can promote protein homeostasis by alleviating protein aggregation in neurons. Surprisingly, we find that glial cells utilize small clear vesicles (SCVs) to signal to neurons, which then relay the signal to the periphery using dense-core vesicles (DCVs). This work underlines the importance of glia in establishing and regulating protein homeostasis within the nervous system, which can then impact neuron-mediated effects in organismal homeostasis and longevity.TeaserGlial cells sense mitochondrial stress and signal a beneficial stress signal to promote neuronal health and longevity.

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More than a loading control: actin regulation in aging

Averbukh

Garcia

Higuchi‐Sanabria

2023

Aging

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Maxim Averbukh

Surveying Low-Cost Methods to Measure Lifespan and Healthspan in <em>Caenorhabditis elegans</em>

Large‐scale genetic screens identify BET‐1 as a cytoskeleton regulator promoting actin function and life span

Surveying Low-Cost Methods to Measure Lifespan and Healthspan in <em>Caenorhabditis elegans</em>

Glial-derived mitochondrial signals impact neuronal proteostasis and aging

More than a loading control: actin regulation in aging

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