The impact of sex on brain responses to smoking cues: a perfusion fMRI study

Background

Anecdotal and clinical theories purport that females are more responsive to smoking cues, yet few objective, neurophysiological examinations of these theories have been conducted. The current study examines the impact of sex on brain responses to smoking cues.

Methods

Fifty-one (31 males) cigarette-dependent sated smokers underwent pseudo- continuous arterial spin-labeled perfusion functional magnetic resonance imaging during exposure to visual smoking cues and non-smoking cues. Brain responses to smoking cues relative to non-smoking cues were examined within males and females separately and then compared between males and females. Cigarettes smoked per day was included in analyses as a covariate.

Results

Both males and females showed increased responses to smoking cues compared to non-smoking cues with males exhibiting increased medial orbitofrontal cortex and ventral striatum/ventral pallidum responses, and females showing increased medial orbitofrontal cortex responses. Direct comparisons between male and female brain responses revealed that males showed greater bilateral hippocampal/amygdala activation to smoking cues relative to non-smoking cues.

Conclusions

Males and females exhibit similar responses to smoking cues relative to non-smoking cues in a priori reward-related regions; however, direct comparisons between sexes indicate that smoking cues evoke greater bilateral hippocampal/amygdalar activation among males. Given the current literature on sex differences in smoking cue neural activity is sparse and incomplete, these results contribute to our knowledge of the neurobiological underpinnings of drug cue reactivity.

     

β-D-glucan Surveillance with Preemptive Anidulafungin for Invasive Candidiasis in Intensive Care Unit Patients: A Randomized Pilot Study

Background

Invasive candidiasis (IC) is a devastating disease. While prompt antifungal therapy improves outcomes, empiric treatment based on the presence of fever has little clinical impact. Β-D-Glucan (BDG) is a fungal cell wall component detectable in the serum of patients with early invasive fungal infection (IFI). We evaluated the utility of BDG surveillance as a guide for preemptive antifungal therapy in at-risk intensive care unit (ICU) patients.

Methods

Patients admitted to the ICU for ≥3 days and expected to require at least 2 additional days of intensive care were enrolled. Subjects were randomized in 3∶1 fashion to receive twice weekly BDG surveillance with preemptive anidulafungin in response to a positive test or empiric antifungal treatment based on physician preference.

Results

Sixty-four subjects were enrolled, with 1 proven and 5 probable cases of IC identified over a 2.5 year period. BDG levels were higher in subjects with proven/probable IC as compared to those without an IFI (117 pg/ml vs. 28 pg/ml; p<0.001). Optimal assay performance required 2 sequential BDG determinations of ≥80 pg/ml to define a positive test (sensitivity 100%, specificity 75%, positive predictive value 30%, negative predictive value 100%). In all, 21 preemptive and 5 empiric subjects received systemic antifungal therapy. Receipt of preemptive antifungal treatment had a significant effect on BDG concentrations (p< 0.001). Preemptive anidulafungin was safe and generally well tolerated with excellent outcome.

Conclusions

BDG monitoring may be useful for identifying ICU patients at highest risk to develop an IFI as well as for monitoring treatment response. Preemptive strategies based on fungal biomarkers warrant further study.

Trial Registration

Clinical Trials.gov {"type":"clinical-trial","attrs":{"text":"NCT00672841","term_id":"NCT00672841"}}NCT00672841     

Alanine-scanning mutagenesis defines a conserved energetic hotspot in the CaValpha1 AID-CaVbeta interaction site that is critical for channel modulation

Voltage-gated calcium channels (CaVs) are large, multisubunit complexes that control cellular calcium entry. CaV pore-forming (CaValpha1) and cytoplasmic (CaVbeta) subunits associate through a high-affinity interaction between the CaValpha1 alpha interaction domain (AID) and CaVbeta alpha binding pocket (ABP). Here we analyze AID-ABP interaction thermodynamics using isothermal titration calorimetry. We find that commensurate with their strong sequence similarity, all CaV1 and CaV2 AID peptides bind CaVbeta with similar nanomolar affinities. Although the AID-ABP interface encompasses 24 side chains, alanine-scanning mutagenesis reveals that the binding energy is focused in two complementary hotspots comprising four deeply conserved residues. Electrophysiological experiments show that hotspot interaction disruption prevents trafficking and functional modulation of CaV1.2 by CaVbeta. Together, the data support the primacy of the AID-ABP interface for CaValpha1-CaVbeta association, underscore the idea that hotspots dominate protein-protein interaction affinities, and uncover a target for strategies to control cellular excitability by blocking CaValpha1-CaVbeta complex formation.     

Oncogenic BRAF(V600E) inhibits BIM expression to promote melanoma cell survival

Somatic activating mutations of BRAF are the earliest and most common genetic abnormality detected in the genesis of human melanoma. However, the mechanism(s) by which activated BRAF promotes melanoma cell cycle progression and/or survival remain unclear. Here we demonstrate that expression of BIM, a pro-apoptotic member of the BCL-2 family, is inhibited by BRAF-->MEK-->ERK signaling in mouse and human melanocytes and in human melanoma cells. Trophic factor deprivation of melanocytes leads to elevated BIM expression. However, re-addition of trophic factors or activation of a conditional form of BRAF(V600E) leads to rapid inhibition of BIM expression. In both cases, inhibition of BIM expression was dependent on the activity of MEK1/2 and the proteasome. Consistent with these observations, pharmacological inhibition of BRAF(V600E) or MEK1/2 in human melanoma cells (using PLX4720 and CI-1040 respectively) led to a striking elevation of BIM expression. Re-activation of BRAF-->MEK-->ERK signaling led to phosphorylation of BIM-EL on serine 69 and its subsequent degradation. Interestingly, endogenous expression of BIM in melanoma cells was insufficient to induce apoptosis unless combined with serum deprivation. Under these circumstances, inhibition of BIM expression by RNA interference provided partial protection from apoptosis. These data suggest that regulation of BIM expression by BRAF-->MEK-->ERK signaling is one mechanism by which oncogenic BRAF(V600E) can influence the aberrant physiology of melanoma cells.     

Beauveria bassiana: endophytic colonization and plant disease control

Seed application of Beauveria bassiana 11-98 resulted in endophytic colonization of tomato and cotton seedlings and protection against plant pathogenic Rhizoctonia solani and Pythium myriotylum. Both pathogens cause damping off of seedlings and root rot of older plants. The degree of disease control achieved depended upon the population density of B. bassiana conidia on seed. Using standard plating techniques onto selective medium, endophytic 11-98 was recovered from surface-sterilized roots, stems, and leaves of tomato, cotton, and snap bean seedlings grown from seed treated with B. bassiana 11-98. As the rate of conidia applied to seed increased, the proportion of plant tissues from which B. bassiana 11-98 was recovered increased. For rapid detection of B. bassiana 11-98 in cotton tissues, we developed new ITS primers that produce a PCR product for B. bassiana 11-98, but not for cotton. In cotton samples containing DNA from B. bassiana11-98, the fungus was detected at DNA ratios of 1:1000; B. bassiana 11-98 was detected also in seedlings grown from seed treated with B. bassiana 11-98. Using SEM, hyphae of B. bassiana11-98 were observed penetrating epithelial cells of cotton and ramifying through palisade parenchyma and mesophyll leaf tissues. B. bassiana11-98 induced systemic resistance in cotton against Xanthomonas axonopodis pv. malvacearum (bacterial blight). In parasitism assays, hyphae of B. bassiana 11-98 were observed coiling around hyphae of Pythium myriotylum.     

Broadly Neutralizing Monoclonal Antibodies 2F5 and 4E10 Directed against the Human Immunodeficiency Virus Type 1 gp41 Membrane-Proximal External Region Protect against Mucosal Challenge by Simian-Human Immunodeficiency Virus SHIVBa-L

The membrane-proximal external region (MPER) of HIV-1, located at the C terminus of the gp41 ectodomain, is conserved and crucial for viral fusion. Three broadly neutralizing monoclonal antibodies (bnMAbs), 2F5, 4E10, and Z13e1, are directed against linear epitopes mapped to the MPER, making this conserved region an important potential vaccine target. However, no MPER antibodies have been definitively shown to provide protection against HIV challenge. Here, we show that both MAbs 2F5 and 4E10 can provide complete protection against mucosal simian-human immunodeficiency virus (SHIV) challenge in macaques. MAb 2F5 or 4E10 was administered intravenously at 50 mg/kg to groups of six male Indian rhesus macaques 1 day prior to and again 1 day following intrarectal challenge with SHIV_Ba-L. In both groups, five out of six animals showed complete protection and sterilizing immunity, while for one animal in each group a low level of viral replication following challenge could not be ruled out. The study confirms the protective potential of 2F5 and 4E10 and supports emphasis on HIV immunogen design based on the MPER region of gp41.Eliciting broadly neutralizing antibodies is an important goal of HIV vaccine design efforts, and the study of broadly neutralizing monoclonal antibodies (bnMAbs) can assist in that goal. Human bnMAbs against both gp120 and gp41 of the HIV-1 envelope spike have been described. Three bnMAbs to gp41, 2F5, 4E10, and Z13e1, have been identified and shown to recognize neighboring linear epitopes on the membrane proximal external (MPER) region of gp41 (3, 24, 25, 37, 47). In a comprehensive cross-clade neutralization study by Binley et al., 2F5 neutralized 67% and 4E10 neutralized 100% of a diverse panel of 90 primary isolates (2). Similar broad neutralization was seen against sexually transmitted isolates cloned from acutely infected patients (22). More recently, a comprehensive study showed that 2F5 neutralized 97 isolates from a 162-virus panel (60%) and that 4E10 neutralized 159 isolates (98%) (41). Although less potent, the monoclonal antibody Z13, isolated from an antibody phage display library derived from a bone marrow donor whose serum was broadly neutralizing (47), has cross-clade neutralizing activity. Z13e1 is an affinity-enhanced variant of the earlier-characterized MAb Z13 that is directed against an access-restricted epitope between and overlapping the epitopes of 2F5 and 4E10. Both MAbs 2F5 and 4E10 were originally obtained as IgG3 antibodies in hybridomas derived from peripheral blood mononuclear blood lymphocytes (PBMCs) of HIV-1-seropositive nonsymptomatic patients and were later class switched to IgG1 to enable large-scale manufacturing and to prolong in vivo half-life (3, 6, 32).Despite the interest in the MPER as a vaccine target, there is limited information on the ability of MPER antibodies to act antivirally in vivo either in established infection or prophylactically. A study using the huPBL-SCID mouse model showed limited impact from 2F5 when the antibody was administered in established infection (31). Passive administration of 2G12, 2F5, and 4E10 to a cohort of acutely and chronically infected HIV-1 patients provided little direct evidence of 2F5 or 4E10 antiviral activity, whereas the emergence of escape variants indicated unequivocally the ability of 2G12 to act antivirally (18, 39). Indirect evidence did, however, suggest that the MPER MAbs may have affected virus replication, as indicated by viral rebound suppression in a patient known to have a 2G12-resistant virus prior to passive immunization (39). Another study of 10 individuals passively administered 2G12, 2F5, and 4E10 before and after cessation of combination antiretroviral therapy (ART) showed similarly that 2G12 treatment could delay viral rebound, but antiviral activity by 2F5 and 4E10 was not clearly demonstrated (21). In prophylaxis, an early 2F5 passive transfer study with chimpanzees suggested that the antibody could delay or lower the magnitude of primary viremia following HIV-1 challenge (7). A study using gene transfer of 2F5 in a humanized SCID mouse model suggested that continuous plasma levels of approximately 1 μg/ml of 2F5 may significantly reduce viral loads in LAI- and MN-challenged mice (34). Protection studies of rhesus macaques using simian-human immunodeficiency virus SHIV_89.6PD challenge did not provide definitive direct evidence for MPER antibody-mediated protection. One of three animals was protected against intravenous (i.v.) challenge when 2F5 was administered in a cocktail with HIVIG and 2G12 (19), but all three animals treated with 2F5 alone at high concentration became infected. In a vaginal challenge study with SHIV_89.6PD (20), four of five animals were protected with a cocktail of HIVIG, 2F5, and 2G12, but a 2F5/2G12 combination protected only two of five animals. Further protection studies have used MPER MAbs in combination with other MAbs, leaving the individual contributions of these antibodies uncertain (1, 8).In our previous studies, we successfully used the SHIV/macaque model to demonstrate neutralizing antibody protection against mucosal challenge, and we have begun to explore how that protection is achieved (12, 30). Here, we conducted a protection study with the two broadly neutralizing MPER-directed antibodies 2F5 and 4E10. We show that the antibodies can prevent viral infection and thereby support the MPER as a vaccine target.     

Intramolecular electron transfer in sulfite-oxidizing enzymes: probing the role of aromatic amino acids

Sulfite oxidase (SO) is a molybdoheme enzyme that is important in sulfur catabolism, and mutations in the active site region are known to cause SO deficiency disorder in humans. This investigation probes the effects that mutating aromatic residues (Y273, W338, and H337) in the molybdenum-containing domain of human SO have on both the intramolecular electron transfer (IET) rate between the molybdenum and iron centers using laser flash photolysis and on catalytic turnover via steady-state kinetic analysis. The W338 and H337 mutants show large decreases in their IET rate constants (k _ET) relative to the wild-type values, suggesting the importance of these residues for rapid IET. In contrast, these mutants are catalytically competent and exhibit higher k _cat values than their corresponding k _ET, implying that these two processes involve different conformational states of the protein. Redox potential investigations using spectroelectrochemistry revealed that these aromatic residues close to the molybdenum center affect the potential of the presumably distant heme center in the resting state (as shown by the crystal structure of chicken SO), suggesting that the heme may be interacting with these residues during IET and/or catalytic turnover. These combined results suggest that in solution human SO may adopt different conformations for IET and for catalysis in the presence of the substrate. For IET the H337/W338 surface residues may serve as an alternative-docking site for the heme domain. The similarities between the mutant and wild-type EPR spectra indicate that the active site geometry around the Mo(V) center is not changed by the mutations studied here.     

Phospholipase A2 (PLA2) enzymes in membrane trafficking: mediators of membrane shape and function

Since the mid-1990s, there have been tremendous advances in our understanding of the roles that lipid-modifying enzymes play in various intracellular membrane trafficking events. Phospholipases represent the largest group of lipid-modifying enzymes and accordingly display a wide range of functions. The largest class of phospholipases are the phospholipase A(₂) (PLA₂) enzymes, and these have been most extensively studied for their roles in the generation lipid signaling molecules, e.g. arachidonic acid. In recent years, however, cytoplasmic PLA₂ enzymes have also become increasingly associated with various intracellular trafficking events, such as the formation of membrane tubules from the Golgi complex and endosomes, and membrane fusion events in the secretory and endocytic pathways. Moreover, the ability of cytoplasmic PLA₂ enzymes to directly affect the structure and function of membranes by altering membrane curvature suggests novel functional roles for these enzymes. This review will focus on the role of cytoplasmic PLA₂ enzymes in intracellular membrane trafficking and the mechanisms by which they influence membrane structure and function .