Lubna H. Tahtamouni scite author profile

A pivotal mediator of actin dynamics is the protein cofilin, which promotes filament severing and depolymerization, facilitating the breakdown of existing filaments, and the enhancement of filament growth from newly created barbed ends. It does so in concert with actin interacting protein 1 (Aip1), which serves to accelerate cofilin's activity. While progress has been made in understanding its biochemical functions, the physiologic processes the cofilin/Aip1 complex regulates, particularly in higher organisms, are yet to be determined. We have generated an allelic series for WD40 repeat protein 1 (Wdr1), the mammalian homolog of Aip1, and report that reductions in Wdr1 function produce a dramatic phenotype gradient. While severe loss of function at the Wdr1 locus causes embryonic lethality, macrothrombocytopenia and autoinflammatory disease develop in mice carrying hypomorphic alleles. Macrothrombocytopenia is the result of megakaryocyte maturation defects, which lead to a failure of normal platelet shedding. Autoinflammatory disease, which is bone marrow-derived yet nonlymphoid in origin, is characterized by a massive infiltration of neutrophils into inflammatory lesions. Cytoskeletal responses are impaired in Wdr1 mutant neutrophils. These studies establish an essential requirement for Wdr1 in megakaryocytes and neutrophils, indicating that cofilin-mediated actin dynamics are critically important to the development and function of both cell types.

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Microtubule remodelling is required for the front–rear polarity switch during contact inhibition of locomotion

Kadir

Astin

Tahtamouni

et al. 2011

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SummaryWhen migrating mesenchymal cells collide, they exhibit a 'contact inhibition of locomotion' response that results in reversal of their front-rear polarity by extension of a new leading edge, which enables their migration away from the opposing contacted cell. The critical cytoskeletal rearrangements underpinning these mutual repulsion events are currently unknown. We found that during fibroblast cell-cell collisions, microtubules at the region of contact increase their frequency of catastrophe, their rates of shrinkage and growth, and concomitantly, a new microtubule array is established at a new leading edge. We show that Rho and ROCK activity is necessary for this repulsion response, and we observed increased microtubule stabilisation as a consequence of ROCK inhibition. Importantly, partial destabilisation of microtubules, by co-treatment with a low dose of nocodazole, restored microtubule dynamics to that of untreated cells and rescued contact inhibition of locomotion in ROCK-inhibited cells. Although there was an increase in microtubule growth or shrinkage rates in Y27632 cell-cell collisions, these failed to reach the same level of dynamicity compared with untreated collisions. Our data suggest that microtubule dynamics at contact sites must increase beyond a threshold for a cell to switch its frontrear polarity, and that microtubule stabilisation can lead to a failure of contact inhibition of locomotion.

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Prevalence and risk factors for anabolic-androgenic steroid abuse among Jordanian collegiate students and athletes

Tahtamouni¹,

Mustafa²,

Alfaouri³

et al. 2008

The European Journal of Public Health

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Cofilin and Actin Dynamics: Multiple Modes of Regulation and Their Impacts in Neuronal Development and Degeneration

Bamburg

Minamide

Wiggan

et al. 2021

Cells

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Proteins of the actin depolymerizing factor (ADF)/cofilin family are ubiquitous among eukaryotes and are essential regulators of actin dynamics and function. Mammalian neurons express cofilin-1 as the major isoform, but ADF and cofilin-2 are also expressed. All isoforms bind preferentially and cooperatively along ADP-subunits in F-actin, affecting the filament helical rotation, and when either alone or when enhanced by other proteins, promotes filament severing and subunit turnover. Although self-regulating cofilin-mediated actin dynamics can drive motility without post-translational regulation, cells utilize many mechanisms to locally control cofilin, including cooperation/competition with other proteins. Newly identified post-translational modifications function with or are independent from the well-established phosphorylation of serine 3 and provide unexplored avenues for isoform specific regulation. Cofilin modulates actin transport and function in the nucleus as well as actin organization associated with mitochondrial fission and mitophagy. Under neuronal stress conditions, cofilin-saturated F-actin fragments can undergo oxidative cross-linking and bundle together to form cofilin-actin rods. Rods form in abundance within neurons around brain ischemic lesions and can be rapidly induced in neurites of most hippocampal and cortical neurons through energy depletion or glutamate-induced excitotoxicity. In ~20% of rodent hippocampal neurons, rods form more slowly in a receptor-mediated process triggered by factors intimately connected to disease-related dementias, e.g., amyloid-β in Alzheimer’s disease. This rod-inducing pathway requires a cellular prion protein, NADPH oxidase, and G-protein coupled receptors, e.g., CXCR4 and CCR5. Here, we will review many aspects of cofilin regulation and its contribution to synaptic loss and pathology of neurodegenerative diseases.

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