Laura C. Funk scite author profile

Summary Errors in chromosome segregation during mitosis have been recognized as a hallmark of tumor cells since the late 1800s, resulting in the long-standing hypothesis that mitotic abnormalities drive tumorigenesis. Recent work has shown that mitotic defects can promote tumors, suppress them, or do neither, depending on the rate of chromosome missegregation. Here we discuss the causes of chromosome missegregation, their effects on tumor initiation and progression, and the evidence that increasing the rate of chromosome missegregation may be an effective chemotherapeutic strategy.

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Dynamin 1- and 3-Mediated Endocytosis Is Essential for the Development of a Large Central SynapseIn Vivo

Fan

Funk

Lou

2016

J. Neurosci.

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Dynamin is a large GTPase crucial for endocytosis and sustained neurotransmission, but its role in synapse development in the mammalian brain has received little attention. We addressed this question using the calyx of Held (CH), a large nerve terminal in the auditory brainstem in mice. Tissue-specific ablation of different dynamin isoforms bypasses the early lethality of conventional knock-outs and allows us to examine CH development in a native brain circuit. Individual gene deletion of dynamin 1, a primary dynamin isoform in neurons, as well as dynamin 2 and 3, did not affect CH development. However, combined tissue-specific knock-out of both dynamin 1 and 3 (cDKO) severely impaired CH formation and growth during the first postnatal week, and the phenotypes were exacerbated by further additive conditional knock-out of dynamin 2. The developmental defect of CH in cDKO first became evident on postnatal day 3 (P3), a time point when CH forms and grows abruptly. This is followed by a progressive loss of postsynaptic neurons and increased glial infiltration late in development. However, early CH synaptogenesis before protocalyx formation was not altered in cDKO. Functional maturation of synaptic transmission in the medial nucleus of the trapezoid body in cDKO was impeded during development and accompanied by an increase in the membrane excitability of medial nucleus of the trapezoid body neurons. This study provides compelling genetic evidence that CH formation requires dynamin 1-and 3-mediated endocytosis in vivo, indicating a critical role of dynamin in synaptic development, maturation, and subsequent maintenance in the mammalian brain.

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p53 Is Not Required for High CIN to Induce Tumor Suppression

Funk

Wan

Ryan

et al. 2021

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Chromosomal instability (CIN) is a hallmark of cancer. While low levels of CIN can be tumor promoting, high levels of CIN cause cell death and tumor suppression. The widely used chemotherapeutic, paclitaxel (Taxol), exerts its anticancer effects by increasing CIN above a maximally tolerated threshold. One significant outstanding question is whether the p53 tumor suppressor is required for the cell death and tumor suppression caused by high CIN. Both p53 loss and reduction of the mitotic kinesin, centromere-associated protein-E, cause low CIN. Combining both genetic insults in the same cell leads to high CIN. Here, we test whether high CIN causes cell death and tumor suppression even in the absence p53. Despite a surprising sex-specific difference in tumor spectrum and latency in p53 heterozygous animals, these studies demonstrate that p53 is not required for high CIN to induce tumor suppression. Pharmacologic induction of high CIN results in equivalent levels of cell death due to loss of essential chromosomes in p53+/+ and p53−/− cells, further demonstrating that high CIN elicits cell death independently of p53 function. Implications: These results provide support for the efficacy of anticancer therapies that induce high CIN, even in tumors that lack functional p53.

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Figure S4 from p53 Is Not Required for High CIN to Induce Tumor Suppression

Funk¹,

Wei²,

Ryan³

et al. 2023

Preprint

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Figure S5 from p53 Is Not Required for High CIN to Induce Tumor Suppression

Funk¹,

Wei²,

Ryan³

et al. 2023

Preprint

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Laura C. Funk

Living in CIN: Mitotic Infidelity and Its Consequences for Tumor Promotion and Suppression

Dynamin 1- and 3-Mediated Endocytosis Is Essential for the Development of a Large Central SynapseIn Vivo

p53 Is Not Required for High CIN to Induce Tumor Suppression

Figure S4 from p53 Is Not Required for High CIN to Induce Tumor Suppression

Figure S5 from p53 Is Not Required for High CIN to Induce Tumor Suppression

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