Multiple motors cooperate to establish and maintain acentrosomal spindle bipolarity in C. elegans oocyte meiosis

Cavin-Meza, Gabriel; Kwan, Michelle M; Wignall, Sarah M.

doi:10.7554/elife.72872

Cited by 10 publications

(30 citation statements)

References 70 publications

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“…It has recently been shown that Nuclear Mitotic Apparatus 1 (NUMA1) and the centrosomal proteins (CEP) CEP152 and CEP 55 are key to centrosomal function. The motor proteins kinesin and dynein-dynactin preform key role not only moving chromosomes but also on collecting the ends of microtubules together into cohesive mitotic spindle poles in a bipolar orientation [ 74 , 75 , 142 , 143 , 144 , 145 , 146 , 147 ]. Table 9 lists the EWAS hits identified in the Schrott datasets for some of these proteins.…”

Section: Discussionmentioning

confidence: 99%

“…However, as explored in some detail in the Discussion section, the exact mechanism of this is not understood in molecular terms. Perhaps the most likely explanations relate to disruptions of the post-translational modification code on either the tubulin which comprise the microtubules along which the chromosomes are pulled by cellular kinesin motors [ 74 , 75 , 76 ], the 90 proteins of the mammalian kinetochore which bind the chromosomes to the microtubules [ 77 ], or to the centrosomal chromatin itself [ 77 ]. Chromosomal scission and one or two whole genome doubling events [ 78 ] are also described as part of cannabinoid genotoxicity [ 79 ] all of which suggest gross disruption of the meiotic I machinery of spermatid division.…”

Section: Introductionmentioning

confidence: 99%

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Cannabis- and Substance-Related Epidemiological Patterns of Chromosomal Congenital Anomalies in Europe: Geospatiotemporal and Causal Inferential Study

Reece

Hulse

2022

IJERPH

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Introduction: Laboratory data link cannabinoid exposure to chromosomal mis-segregation errors. Recent epidemiological reports confirm this link and raise concern that elevated chromosomal congenital anomaly rates (CCAR) may be occurring in Europe which is experiencing increased cannabis use, daily intensity of use and cannabinoid potency. Methods: CCAR data from Eurocat. Drug use data from the European Monitoring Centre for Drugs and Drug Addiction. Income from World Bank. Bivariate, multivariate, panel and geotemporospatial regressions analyzed. Inverse probability weighting of panel models and E-values used as major quantitative causal inferential methodologies. Results: In countries where daily cannabis use was rising the trend for CCA’s was upwards whereas in those where daily use was declining it was usually downwards (p = 0.0002). In inverse probability weighted panel models terms for cannabis metrics were significant for chromosomal disorders, trisomies 21 and 13 and Klinefelters syndrome from p < 2.2 × 10−16. In spatiotemporal models cannabis terms were positive and significant for chromosomal disorders, genetic disorders, trisomies 21, 18 and 13, Turners and Klinefelters syndromes from 4.28 × 10−6, 5.79 × 10−12, 1.26 × 10−11, 1.12 × 10−7, 7.52 × 10−9, 7.19 × 10−7 and 7.27 × 10−7. 83.7% of E-value estimates and 74.4% of minimum E-values (mEV) > 9 including four values each at infinity. Considering E-values: the sensitivity of the individual disorders was trisomy 13 > trisomy 21 > Klinefelters > chromosomal disorders > Turners > genetic syndromes > trisomy 18 with mEV’s 1.91 × 1025 to 59.31; and daily cannabis use was the most powerful covariate (median mEV = 1.91 × 1025). Conclusion: Data indicate that, consistent with reports from Hawaii, Canada, Colorado, Australia and USA, CCARs are causally and spatiotemporally related to metrics and intensity of cannabis exposure, directly impact 645 MB (21.5%) of the human genome and may implicate epigenomic-centrosomal mechanisms.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Cannabis- and Substance-Related Epidemiological Patterns of Chromosomal Congenital Anomalies in Europe: Geospatiotemporal and Causal Inferential Study

Reece

Hulse

2022

IJERPH

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“…Our experiments demonstrated that an inward force exists, because the metaphase spindle rapidly shortened and then collapsed upon KLP-18 inhibition. Moreover, we recently found that dynein provides an inward force on the oocyte spindle, suggesting that it could antagonize KLP-18 ( Cavin-Meza et al. , 2022 ).…”

Section: Discussionmentioning

confidence: 99%

“…, 2017 ; Mullen and Wignall, 2017 ); because KLP-18 sorts microtubule minus ends outward during spindle assembly and is required for maintaining spindle length in metaphase, it is possible that it also exerts outward force to drive microtubule sliding during anaphase B. We recently found that when KLP-18 and dynein are both depleted, anaphase B can still occur ( Cavin-Meza et al. , 2022 ), demonstrating that this motor is not essential for outward sliding.…”

Section: Discussionmentioning

confidence: 99%

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Acentrosomal spindle assembly and maintenance in Caenorhabditis elegans oocytes requires a kinesin-12 nonmotor microtubule interaction domain

Wolff

Hollis

Wignall

2022

MBoC

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Distinct dynein complexes defined by DYNLRB1 and DYNLRB2 regulate mitotic and male meiotic spindle bipolarity

Gillies

Zang

et al. 2023

Nat Commun

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Spindle formation in male meiosis relies on the canonical centrosome system, which is distinct from acentrosomal oocyte meiosis, but its specific regulatory mechanisms remain unknown. Herein, we report that DYNLRB2 (Dynein light chain roadblock-type-2) is a male meiosis-upregulated dynein light chain that is indispensable for spindle formation in meiosis I. In Dynlrb2 KO mouse testes, meiosis progression is arrested in metaphase I due to the formation of multipolar spindles with fragmented pericentriolar material (PCM). DYNLRB2 inhibits PCM fragmentation through two distinct pathways; suppressing premature centriole disengagement and targeting NuMA (nuclear mitotic apparatus) to spindle poles. The ubiquitously expressed mitotic counterpart, DYNLRB1, has similar roles in mitotic cells and maintains spindle bipolarity by targeting NuMA and suppressing centriole overduplication. Our work demonstrates that two distinct dynein complexes containing DYNLRB1 or DYNLRB2 are separately used in mitotic and meiotic spindle formations, respectively, and that both have NuMA as a common target.

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Multiple motors cooperate to establish and maintain acentrosomal spindle bipolarity in C. elegans oocyte meiosis

Cited by 10 publications

References 70 publications

Cannabis- and Substance-Related Epidemiological Patterns of Chromosomal Congenital Anomalies in Europe: Geospatiotemporal and Causal Inferential Study

Cannabis- and Substance-Related Epidemiological Patterns of Chromosomal Congenital Anomalies in Europe: Geospatiotemporal and Causal Inferential Study

Acentrosomal spindle assembly and maintenance in Caenorhabditis elegans oocytes requires a kinesin-12 nonmotor microtubule interaction domain

Distinct dynein complexes defined by DYNLRB1 and DYNLRB2 regulate mitotic and male meiotic spindle bipolarity

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