SLK-dependent activation of ERMs controls LGN-NuMA localization and spindle orientation.

Mitotic spindle orientation relies on a complex dialog between the spindle microtubules and the cell cortex, in which F-actin has been recently implicated. Here, we report that the membrane-actin linkers ezrin/radixin/moesin (ERMs) are strongly and directly activated by the Ste20-like kinase at mitotic entry in mammalian cells. Using microfabricated adhesive substrates to control the axis of cell division, we found that the activation of ERMs plays a key role in guiding the orientation of the mitotic spindle.

External forces control mitotic spindle positioning.

The response of cells to forces is essential for tissue morphogenesis and homeostasis. This response has been extensively investigated in interphase cells, but it remains unclear how forces affect dividing cells. We used a combination of micro-manipulation tools on human dividing cells to address the role of physical parameters of the micro-environment in controlling the cell division axis, a key element of tissue morphogenesis.

Robust method for high-throughput surface patterning of deformable substrates.

We describe a simple and robust method for high-throughput surface patterning of deformable substrates such as silicone rubber films covered with a thin layer of protein and cell antifouling hydrogel (PLL-g-PEG). The irradiation with deep UV (<200 nm) of PLL-g-PEG-coated rubber substrates through a synthetic quartz photomask created micropatterns over a large area of the substrate. Incubation with proteins resulted in stable patterns with high feature resolution.

Free Brick1 is a trimeric precursor in the assembly of a functional wave complex.

Background: The Wave complex activates the Arp2/3 complex, inducing actin polymerization in lamellipodia and membrane ruffles. The Wave complex is composed of five subunits, the smallest of which, Brick1/Hspc300 (Brk1), is the least characterized. We previously reported that, unlike the other subunits, Brk1 also exists as a free form.

Cell type-- dependent effects of Polo-like kinase 1 inhibition compared with targeted polo box interference in cancer cell lines.

Multiple critical roles within mitosis have been assigned to Polo-like kinase 1 (Plk1), making it an attractive candidate for mitotic targeting of cancer cells. Plk1 contains two domains amenable for targeted interference: a kinase domain responsible for the enzymatic function and a polo box domain necessary for substrate recognition and subcellular localization. Here, we compare two approaches for targeted interference with Plk1 function, either by a Plk1 small-molecule enzyme inhibitor or by inducible overexpression of the polo box in human cancer cell lines.

Comparative study and improvement of current cell micro-patterning techniques.

The original micropatterning technique on gold, although very efficient, is not accessible to most biology labs and is not compatible with their techniques for image acquisition. Other solutions have been developed on silanized glass coverslips. These methods are still hardly accessible to biology labs and do not provide sufficient reproducibility to become incorporated in routine biological protocols.