Table of Contents
IN THIS ISSUE
CELL SCIENTISTS TO WATCH
CELL SCIENCE AT A GLANCE
- Cancer cell behaviors mediated by dysregulated pH dynamics at a glance
Summary: Cancer cells have dysregulated pH dynamics and the increased intracellular pH enables a variety of cancer cell behaviors.
- Mitochondrial dynamics in neuronal injury, development and plasticity
Summary: Mitochondrial dynamics, encompassing fission, fusion and transport of the organelle, is precisely regulated and plays important roles in the development and function of the nervous system.
- Clasp2 ensures mitotic fidelity and prevents differentiation of epidermal keratinocytes
Highlighted Article: Clasp2 is largely confined to the basal progenitor layer of the epidermis. This report shows that Clasp2 ensures mitotic fidelity and holds primary keratinocytes into an undifferentiated state.
- Tension regulates myosin dynamics during Drosophila embryonic wound repair
Highlighted Article: We quantify non-muscle myosin II dynamics during the coordinated cell movements that drive embryonic wound repair, and demonstrate that mechanical forces and phosphorylation regulate myosin turnover.
- A proteomic approach to identify endosomal cargoes controlling cancer invasiveness
Highlighted Article: This paper describes a novel proteomic approach to identify pro-invasive cargoes, which we have used to determine that Rab17 controls Vamp8 levels to drive neuropilin-2 trafficking, promoting invasion.
- The spectraplakin Short stop is an essential microtubule regulator involved in epithelial closure in Drosophila
Summary: The Drosophila spectraplakin Shot coordinates actin–microtubule interactions at the leading edge to ensure the formation of filopodia that promote the dorsal closure of the embryonic epithelium.
- A potential physiological role for bi-directional motility and motor clustering of mitotic kinesin-5 Cin8 in yeast mitosis
Highlighted Article: We show that clustering of the mitotic kinesin-5 Cin8 on microtubules controls its motile properties and directionality, and we provide a refined model of how Cin8 performs its essential functions in mitosis.
- Role of the phagosomal redox-sensitive TRP channel TRPM2 in regulating bactericidal activity of macrophages
Summary: We found that the redox-sensitive TRP channel TRPM2 was present in the phagosomal membrane and that it regulates macrophage bactericidal activity by promoting phagosomal acidification.
- Accumulation of nuclear ADAR2 regulates adenosine-to-inosine RNA editing during neuronal development
Highlighted Article: During neuronal maturation, adenosine-to-inosine RNA editing is regulated by nuclear import of the ADAR2 editing enzyme, which is governed by importin-α4, and nuclear stabilization of ADAR2 by Pin1.
- Interplay between a cytosolic and a cell surface carbonic anhydrase in pH homeostasis and acid tolerance of Leishmania
Summary: Leishmania parasites depend on the concerted action of a cytosolic and a cell surface carbonic anhydrase in order to buffer their cytosol and to proliferate in acidic environments.
- Human cactin interacts with DHX8 and SRRM2 to assure efficient pre-mRNA splicing and sister chromatid cohesion
Summary: Human cactin interacts with spliceosome-associated DHX8 and SRRM2 to support efficient pre-mRNA splicing of thousands of genes, including cohesin-associated CDCA5, and promote chromosome stability.
- Cellular strain avoidance is mediated by a functional actin cap – observations in an Lmna-deficient cell model
Summary: The strain avoidance response of cells lacking a functional actin cap, such as in Lmna-deficient cells, is impaired. This suggests a crucial role for the actin cap in strain responsiveness.
- Pex35 is a regulator of peroxisome abundance
Summary: High-content screens identify Pex35, a new peroxisomal membrane protein that regulates peroxisome abundance in yeast. Analysis of Pex35 mutants reveals the functional interaction between peroxisomes and the secretory pathway.
- Suppression of intestinal tumorigenesis in Apc mutant mice upon Musashi-1 deletion
Summary: This study provides genetic evidence that Msi-1 participates in intestinal tumorigenesis driven by tumor suppressor Apc mutations, and implicates Wnt and Notch signaling pathways as mechanistic contributors.
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