Heat shock proteins induce pores in membranes

Human heat shock protein (hsp) 70 and bacterial protein groEL promote leakage of calcein from liposomes induced by human serum albumin signal peptide, byS. aureus toxin or by diphtheria toxin. Hsp 70 and groEL, as well as two mycobacterial homologues hsp 71 and hsp 65, induce ion conducting pores across planar lipid bilayers at low or neutral pH. It is concluded that hsp induce pores in membranes and that this may contribute to their action within cells.     

Common action of certain viruses,toxins, and activated complement: pore formation and its prevention by extracellular Ca2+

Haemolysis by Sendal virus, -toxin, and activated complement is inhibited by high concentrations of divalent cations. In Daudi cells, sublytic amounts of these agents induce the following changes: collapse of surface membrane potential, uptake of Na⁺ and loss of K⁺ from cells, and leakage of phosphorylated metabo-tites from cells. The changes induced by Sendal virus and complement are sensitive to physiological concentrations of extracellular Ca²⁺. It is concluded that fluctuations in plasma Ca²⁺ concentration may affect the damaging action of certain pore-forming agents on susceptible cells.     

Diverse Varieties and Diverse Markets: Scale-related Maize “Profitability Crossover” in the Central Mexican Highlands

Discussions of maize agriculture in Mexico often treat “maize” as a uniform commodity, sold in a relatively homogeneous market, and for which there is a single, “economically rational” production strategy. Based on qualitative research on maize value chains, we suggest that this unitary notion entails significant oversimplifications. We offer a heuristic model of farm-size related “profitability crossover,” based on observations of highland maize varieties’ roles within a series of farm-cycle opportunities and constraints. We suggest that while improved maize varieties may be profitable for large-scale farms taking advantage of economies of scale, landrace cultivation may offer advantages to small- to medium-scale farmers, who utilize a diverse range of input strategies, and sell their products in specialty markets. Understanding maize agriculture as a multi-product and multi-market pursuit rather than uniform commodity production would add greater depth to policy and academic debates.     

Enterococcus faecalis multi-drug resistance transporters: application for antibiotic discovery

Using bioinformatics approaches, 34 potential multidrug resistance (MDR) transporter sequences representing 4 different transporter families were identified in the unannotated Enterococcus faecalis database (TIGR). A functional genomics campaign generating single-gene insertional disruptions revealed several genes whose absence confers significant hypersensitivities to known antimicrobials. We constructed specific strains, disrupted in a variety of previously unpublished, putative MDR transporter genes, as tools to improve the success of whole-cell antimicrobial screening and discovery. Each of the potential transporters was inactivated at the gene level and then phenotypically characterized, both with single disruption mutants and with 2-gene mutants built upon a delta norA deleted strain background.     

Lateral Fluid Percussion: Model of Traumatic Brain Injury in Mice

Traumatic brain injury (TBI) research has attained renewed momentum due to the increasing awareness of head injuries, which result in morbidity and mortality. Based on the nature of primary injury following TBI, complex and heterogeneous secondary consequences result, which are followed by regenerative processes ^1,2. Primary injury can be induced by a direct contusion to the brain from skull fracture or from shearing and stretching of tissue causing displacement of brain due to movement ^3,4. The resulting hematomas and lacerations cause a vascular response ^3,5, and the morphological and functional damage of the white matter leads to diffuse axonal injury ^6-8. Additional secondary changes commonly seen in the brain are edema and increased intracranial pressure ⁹. Following TBI there are microscopic alterations in biochemical and physiological pathways involving the release of excitotoxic neurotransmitters, immune mediators and oxygen radicals ^10-12, which ultimately result in long-term neurological disabilities ^13,14. Thus choosing appropriate animal models of TBI that present similar cellular and molecular events in human and rodent TBI is critical for studying the mechanisms underlying injury and repair.Various experimental models of TBI have been developed to reproduce aspects of TBI observed in humans, among them three specific models are widely adapted for rodents: fluid percussion, cortical impact and weight drop/impact acceleration ¹. The fluid percussion device produces an injury through a craniectomy by applying a brief fluid pressure pulse on to the intact dura. The pulse is created by a pendulum striking the piston of a reservoir of fluid. The percussion produces brief displacement and deformation of neural tissue ^1,15. Conversely, cortical impact injury delivers mechanical energy to the intact dura via a rigid impactor under pneumatic pressure ^16,17. The weight drop/impact model is characterized by the fall of a rod with a specific mass on the closed skull ¹⁸. Among the TBI models, LFP is the most established and commonly used model to evaluate mixed focal and diffuse brain injury ¹⁹. It is reproducible and is standardized to allow for the manipulation of injury parameters. LFP recapitulates injuries observed in humans, thus rendering it clinically relevant, and allows for exploration of novel therapeutics for clinical translation ²⁰.We describe the detailed protocol to perform LFP procedure in mice. The injury inflicted is mild to moderate, with brain regions such as cortex, hippocampus and corpus callosum being most vulnerable. Hippocampal and motor learning tasks are explored following LFP.