Two prevailing models have emerged to explain the mechanism of contractile-ring assembly during cytokinesis in the fission yeast Schizosaccharomyces pombe: the spot/leading cable model and the search, capture, pull, and release (SCPR) model. We tested some of the basic assumptions of the two models. Monte Carlo simulations of the SCPR model require that the formin Cdc12p is present in >30 nodes from which actin filaments are nucleated and captured by myosin-II in neighboring nodes. The force produced by myosin motors pulls the nodes together to form a compact contractile ring. Live microscopy of cells expressing Cdc12p fluorescent fusion proteins shows for the first time that Cdc12p localizes to a broad band of 30 -50 dynamic nodes, where actin filaments are nucleated in random directions. The proposed progenitor spot, essential for the spot/leading cable model, usually disappears without nucleating actin filaments. ␣-Actinin ain1 deletion cells form a normal contractile ring through nodes in the absence of the spot. Myosin motor activity is required to condense the nodes into a contractile ring, based on slower or absent node condensation in myo2-E1 and UCS rng3-65 mutants. Taken together, these data provide strong support for the SCPR model of contractile-ring formation in cytokinesis.
Since the outbreak of the COVID-19 pandemic, most countries have recommended their citizens to adopt social distance, hand hygiene, and face mask wearing. However, wearing face masks has not been well adopted by many citizens. While the reasons are complex, there is a general perception that the evidence to support face mask wearing is lacking, especially for the general public in a community setting. Face mask wearing can block or filter airborne virus-carrying particles through the working of colloid and interface science. This paper assesses current knowledge behind the design and functioning of face masks by reviewing the selection of materials, mask specifications, relevant laboratory tests, and respiratory virus transmission trials, with an overview of future development of reusable masks for the general public. This review highlights the effectiveness of face mask wearing in the prevention of COVID-19 infection.
Robust mechanisms to control cell proliferation have evolved to maintain the integrity of organ architecture. Here, we investigated how two critical proliferative pathways, Myc and E2f, are integrated to control cell cycles in normal and Rb deficient cells using a murine intestinal model. We show that Myc and E2f1-3 have little impact on normal G1-S transitions. Instead, they synergistically control an S-G2 transcriptional program required for normal cell divisions and maintaining crypt-villus integrity. Surprisingly, Rb deficiency results in the Myc-dependent accumulation of E2f3 protein and chromatin repositioning of both Myc and E2f3, leading to the ‘super activation’ of a G1-S transcriptional program, ectopic S phase entry and rampant cell proliferation. These findings reveal that Rb deficient cells hijack and redeploy Myc and E2f3 from an S-G2 program essential for normal cell cycles to a G1-S program that re-engages ectopic cell cycles, exposing an unanticipated addiction of Rb-null cells on Myc.
Antimicrobial peptides
(AMPs) can target bacterial membranes and
kill bacteria through membrane structural damage and cytoplasmic leakage.
A group of surfactant-like cationic AMPs was developed from substitutions
to selective amino acids in the general formula of G(IIKK)3I-NH2, (called G3, a de novo AMP), to explore
the correlation between AMP hydrophobicity and bioactivity. A threshold
surface pressure over 12 mN/m was required to cause measurable antimicrobial
activity and this corresponded to a critical AMP concentration. Greater
surface activity exhibited stronger antimicrobial activity but had
the drawback of worsening hemolytic activity. Small unilamellar vesicles
(SUVs) with specific lipid compositions were used to model bacterial
and host mammalian cell membranes by mimicking the main structural
determinants of the charge and composition. Leakage from the SUVs
of encapsulated carboxyfluorescein measured by fluorescence spectroscopy
indicated a negative correlation between hydrophobicity and model
membrane selectivity, consistent with measurements of the zeta potential
that demonstrated the extent of AMP binding onto model SUV lipid bilayers.
Experiments with model lipid membranes thus explained the trend of
minimum inhibitory concentrations and selectivity measured from real
cell systems and demonstrated the dominant influence of hydrophobicity.
This work provides useful guidance for the improvement of the potency
of AMPs via structural design, whilst taking due consideration of
cytotoxicity.
Mesodermal cells signal to neighboring epithelial cells to modulate their proliferation in both normal and disease states. We adapted a C. elegans organogenesis model to enable a genome-wide mesodermal-specific RNAi screen and discovered 39 factors in mesodermal cells that suppress the proliferation of adjacent ‘Ras pathway-sensitized’ epithelial cells. These candidates encode components of protein complexes and signaling pathways that converge on the control of chromatin dynamics, cytoplasmic polyadenylation and translation. Stromal fibroblast-specific deletion of candidate mouse orthologs of several candidates resulted in the hyperproliferation of mammary gland epithelium. Furthermore, a 33-gene signature of human orthologs was selectively enriched in the tumor stroma of breast cancer patients and depletion of these factors from normal human breast fibroblasts increased proliferation of co-cultured breast cancer cells. This cross-species approach identified unanticipated regulatory networks in mesodermal cells with growth suppressive function, exposing the conserved and selective nature of mesodermal-epithelial communication in development and cancer.
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