Summary
To take full advantage of fast-acting temperature-sensitive mutations, thermal
control must be extremely rapid. We developed the Therminator, a device capable of
shifting sample temperature in ~17s while simultaneously imaging cell division in
vivo. Applying this technology to six key regulators of cytokinesis, we found
that each has a distinct temporal requirement in the C. elegans zygote.
Specifically, myosin-II is required throughout cytokinesis until contractile ring closure.
In contrast, formin-mediated actin nucleation is only required during assembly and early
contractile ring constriction. Centralspindlin is required to maintain division after ring
closure, though its GAP activity is only required until just prior to closure. Finally,
the Chromosomal Passenger Complex is required for cytokinesis only early in mitosis, but
not during metaphase or cytokinesis. Together, our results provide a precise functional
timeline for molecular regulators of cytokinesis using the Therminator, a powerful tool
for ultra-rapid protein inactivation.
In asymmetrically dividing C. elegans embryos, the core cortical PAR proteins are required to retain septin and anillin at the anterior cortex away from the contractile ring and to promote normal F-actin levels at the contractile ring and successful cytokinesis.
Rho GTPases are molecular switches that elicit distinct effects on the actomyosin cytoskeleton to accurately promote cytokinesis. Although they represent less than 1% of the human genome, Rho GTPases exert disproportionate control over cell division. Crucial to this master regulatory role is their localized occupation of specific domains of the cell to ensure the assembly of a contractile ring at the proper time and place. RhoA occupies the division plane and is the central positive Rho family regulator of cytokinesis. Rac1 is a negative regulator of cytokinesis and is inactivated within the division plane while active Rac1 occupies the cell poles. Cdc42 regulation during cytokinesis is less studied, but thus far a clear role has only been shown during polar body emission. Here we review what is known about the function of Rho family GTPases during cell division, as well as their upstream regulators and known downstream cytokinetic effectors.
The roles of the Rho-family GAP CYK-4 and small GTPase Rac during cytokinesis are examined in Caenorhabditis elegans embryos. CYK-4 opposes Rac (and potentially Cdc42) activity during cytokinesis. There is no evidence that CYK-4 is upstream of Rho activity or that Rac disruption is a general suppressor of cytokinesis failure.
Hyaluronan is a linear glycosaminoglycan that forms the backbone of perineuronal nets around neurons in the cerebral cortex. However, it remains controversial whether neurons are capable of independent hyaluronan synthesis. Herein, we examined the expression of hyaluronan and hyaluronan synthases (HASs) throughout cortical neuron development in vitro. Enriched cultures of cortical neurons were established from E16 rats. Neurons were collected at days in vitro (DIV) 0 (4 h), 1, 3, 7, 14, and 21 for qPCR or immunocytochemistry. In the relative absence of glia, neurons exhibited HAS1–3 mRNA at all time-points. By immunocytochemistry, puncta of HAS2–3 protein and hyaluronan were located on neuronal cell bodies, neurites, and lamellipodia/growth cones from as early as 4 h in culture. As neurons matured, hyaluronan was also detected on dendrites, filopodia, and axons, and around synapses. Percentages of hyaluronan-positive neurons increased with culture time to ~93% by DIV21, while only half of neurons at DIV21 expressed the perineuronal net marker Wisteria floribunda agglutinin. These data clearly demonstrate that neurons in vitro can independently synthesise hyaluronan throughout all maturational stages, and that hyaluronan production is not limited to neurons expressing perineuronal nets. The specific structural localisation of hyaluronan suggests potential roles in neuronal development and function.
How might the extracellular matrix contribute to cytokinesis? In a recent report, evidence is presented that the conserved extracellular matrix protein hemicentin(HIM-4) is required for cytokinesis in worms and mice.
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