Antagonistic roles of ESCRT and Vps class C/HOPS complexes in the recycling of yeast membrane proteins

In Saccharomyces cerevisiae, deficiencies in the ESCRT machinery trigger the mistargeting of endocytic and biosynthetic ubiquitinated cargoes to the limiting membrane of the vacuole. Surprisingly, impairment of this machinery also leads to the accumulation of various receptors and transporters at the plasma membrane in both yeast and higher eukaryotes. Using the well-characterized yeast endocytic cargo uracil permease (Fur4p), we show here that the apparent stabilization of the permease at the plasma membrane in ESCRT mutants results from an efficient recycling of the protein. Whereas several proteins as well as internalized dyes are known to be recycled in yeast, little is known about the machinery and molecular mechanisms involved. The SNARE protein Snc1p is the only cargo for which the recycling pathway is well characterized. Unlike Snc1p, endocytosed Fur4p did not pass through the Golgi apparatus en route to the plasma membrane. Although ubiquitination of Fur4p is required for its internalization, deubiquitination is not required for its recycling. In an attempt to identify actors in this new recycling pathway, we found an unexpected phenotype associated with loss of function of the Vps class C complex: cells defective for this complex are impaired for recycling of Fur4p, Snc1p, and the lipophilic dye FM4-64. Genetic analyses indicated that these phenotypes were due to the functioning of the Vps class C complex in trafficking both to and from the late endosomal compartment.     

The Effects of as-Needed Nalmefene on Patient-Reported Outcomes and Quality of Life in Relation to a Reduction in Alcohol Consumption in Alcohol-Dependent Patients

Background

The objective of this article was to investigate the effect of as-needed nalmefene on health-related quality of life (HRQoL) in patients with alcohol dependence, and to relate changes in drinking behavior and status to HRQoL outcomes.

Methods

This post hoc analysis was conducted on a pooled subgroup of patients with at least a high drinking risk level (men: >60 g/day; women: >40 g/day) who participated in one of two randomized controlled 6-month studies, ESENSE 1 and ESENSE 2. Patients received nalmefene 18 mg or placebo on an as-needed basis, in addition to a motivational and adherence-enhancing intervention (BRENDA). At baseline and after 12 and 24 weeks questionnaires for the Medical Outcomes Study (MOS) 36-item Short-Form Health Survey (SF-36), European Quality of life-5 Dimensions (EQ-5D) and the Drinker Inventory of Consequences (DrInC-2R) were completed.

Results

The pooled population consisted of 667 patients (nalmefene: 335; placebo: 332), with no notable between-group differences in baseline patient demographics/characteristics. At week 24, nalmefene had a superior effect compared to placebo in improving SF-36 mental component summary scores (mean difference [95% CI], p-value: 3.09 [1.29, 4.89]; p=0.0008), SF-36 physical component summary scores (1.23 [0.15, 2.31]; p=0.026), EQ-5D utility index scores (0.03 [0.00, 0.06]; p=0.045), EQ-5D health state scores (3.46 [0.75, 6.17]; p=0.012), and DrInC-2R scores (-3.22 [-6.12, 0.33]; p=0.029). The improvements in SF-36 mental component summary scores at week 24, and the DrInC-2R total score change from baseline to week 24, were significantly correlated to reductions in heavy drinking days and total alcohol consumption at week 24.

Conclusions

As-needed nalmefene significantly improved almost all patient-reported HRQoL measures included in SF-36 and EQ-5D compared with placebo. These HRQoL gains were significantly correlated to reduced drinking behavior, as determined by reductions in heavy drinking days and total alcohol consumption.     

Uncoupling of Elastin Complex Receptor during In Vitro Aging Is Related to Modifications in Its Intrinsic Sialidase Activity and the Subsequent Lactosylceramide Production

Degradation of elastin leads to the production of elastin-derived peptides (EDP), which exhibit several biological effects, such as cell proliferation or protease secretion. Binding of EDP on the elastin receptor complex (ERC) triggers lactosylceramide (LacCer) production and ERK1/2 activation following ERC Neu-1 subunit activation. The ability for ERC to transduce signals is lost during aging, but the mechanism involved is still unknown. In this study, we characterized an in vitro model of aging by subculturing human dermal fibroblasts. This model was used to understand the loss of EDP biological activities during aging. Our results show that ERC uncoupling does not rely on Neu-1 or PPCA mRNA or protein level changes. Furthermore, we observe that the membrane targeting of these subunits is not affected with aging. However, we evidence that Neu-1 activity and LacCer production are altered. Basal Neu-1 catalytic activity is strongly increased in aged cells. Consequently, EDP fail to promote Neu-1 catalytic activity and LacCer production in these cells. In conclusion, we propose, for the first time, an explanation for ERC uncoupling based on the age-related alterations of Neu-1 activity and LacCer production that may explain the loss of EDP-mediated effects occurring during aging.     

Discovery and Targeted Proteomics on Cutaneous Biopsies Infected by Borrelia to Investigate Lyme Disease

Lyme disease is the most important vector-borne disease in the Northern hemisphere and represents a major public health challenge with insufficient means of reliable diagnosis. Skin is rarely investigated in proteomics but constitutes in the case of Lyme disease the key interface where the pathogens can enter, persist, and multiply. Therefore, we investigated proteomics on skin samples to detect Borrelia proteins directly in cutaneous biopsies in a robust and specific way. We first set up a discovery gel prefractionation-LC-MS/MS approach on a murine model infected by Borrelia burgdorferi sensu stricto that allowed the identification of 25 Borrelia proteins among more than 1300 mouse proteins. Then we developed a targeted gel prefractionation-LC-selected reaction monitoring (SRM) assay to detect 9/33 Borrelia proteins/peptides in mouse skin tissue samples using heavy labeled synthetic peptides. We successfully transferred this assay from the mouse model to human skin biopsies (naturally infected by Borrelia), and we were able to detect two Borrelia proteins: OspC and flagellin. Considering the extreme variability of OspC, we developed an extended SRM assay to target a large set of variants. This assay afforded the detection of nine peptides belonging to either OspC or flagellin in human skin biopsies. We further shortened the sample preparation and showed that Borrelia is detectable in mouse and human skin biopsies by directly using a liquid digestion followed by LC-SRM analysis without any prefractionation. This study thus shows that a targeted SRM approach is a promising tool for the early direct diagnosis of Lyme disease with high sensitivity (<10 fmol of OspC/mg of human skin biopsy).Lyme borreliosis is an arthropod-borne disease transmitted by hard ticks (Ixodes spp.). The causative agents are bacteria belonging to the Borrelia burgdorferi sensu lato group. In the United States, more than 30,000 cases have been reported to the Centers for Disease Control and Prevention in 2012. There, the unique pathogenic species of Borrelia is B. burgdorferi sensu stricto (s.s.). In Europe, between 65,000 and 85,000 cases are reported depending on the epidemiological study (1, 2), and the three most prevalent pathogenic species of Borrelia are Borrelia afzelii, Borrelia garinii, and B. burgdorferi s.s. The disease in both Europe and the United States is first characterized in most patients by an inflammatory skin lesion, erythema migrans (EM),¹ which is the most frequent manifestation of the disease. Dissemination to other sites occurs secondarily and can involve among others articulation, nervous system, heart, and skin at other sites (3, 4). The diagnosis can be a real challenge because of the proteiform clinical manifestations. When an EM is present, which is the case for 80% of patients (3), early diagnosis is facilitated. However, EM presentation can be clinically atypical, making the recognition of this manifestation of Lyme borreliosis difficult (5). Later on, when Borrelia has disseminated to the target organs, biological diagnosis is based either on the direct detection of the pathogen in different patient body fluids and biopsies by means of culture and/or PCR or on the indirect demonstration of presence of Borrelia by detection of anti-pathogen-directed IgM and IgG antibodies (enzyme-linked immunosorbent assay (ELISA) and Western blot) (6).Concerning the direct detection of Borrelia, culture of the bacteria has allowed the spirochete isolation since the 80s in different specific Barbour-Stoenner-Kelly-based media by using skin biopsies or biological fluids such as blood or cerebrospinal fluid (7, 8). However, Borrelia culture is not routinely used as a diagnostic test because the bacterial growth takes several weeks and does not yield timely results. Indeed, it requires the use of the specific and expensive Barbour-Stoenner-Kelly medium and a dark field microscope to detect, frequently after at least 2 weeks of incubation, the presence of Borrelia in tissues or biological fluids. When performed from patients with EM, only 40–80% of the cultures are positive (6). In addition, the success of culture varies greatly according to the Borrelia species. PCR is quicker and generally more sensitive than culture with a range of 36–88%, although the success of bacterial detection varies with the gene selected for the assay (6). PCR is efficient for Borrelia detection in synovial liquid (60–85% of the cases) in the case of arthritis (9, 10) but less sensitive in cases of neuroborreliosis in cerebrospinal fluid (<20–40% of the cases) (9, 11). Moreover, PCR detects DNA and not proteins and therefore prevents the detection of active infection. As far as the skin biopsies are concerned, the sensitivity of detection is variable in cases of EM or acrodermatitis chronica atrophicans (12). Conversely, indirect detection using serological tests is not adapted to the early diagnosis as it relies on antibodies only detectable after at least 4–6 weeks after the infectious tick bite. These tests also suffer from lack of specificity (13). New diagnostic approaches are therefore required. Selected reaction monitoring (SRM) has been recognized as an efficient mass spectrometry-based technique for the biomarker verification and validation in several biological fluids (blood, plasma, and urine) (14 –18). The demonstrated specificity, selectivity, and high sensitivity (low attomole range) of the technique (19) makes it promising for the development of an SRM-based method for early diagnosis of Lyme disease. To our knowledge, this strategy has only rarely been used on skin tissue (20). It would allow the direct and rapid detection of Borrelia proteins in the skin, demonstrating the presence of an active infection very early after the tick transmission.In the present study, we set up a workflow to develop a robust and sensitive SRM assay to detect Borrelia in human skin samples (Fig. 1). First, we looked for Borrelia proteins in infected mouse skin samples by using a classical shotgun/discovery strategy. This experiment afforded a list of bacterial proteins that are expressed in vivo in the skin of an infected mammalian host. Then, we selected protein targets and optimized a Ge-LC-SRM assay to specifically detect and quantify these proteins in mouse skin samples. We demonstrated the transferability of the SRM assay for the detection of the targeted proteins in human skin samples naturally infected with Borrelia. Finally, we improved the experimental protocol to avoid gel prefractionation.Open in a separate windowFig. 1.Summary of the experimental workflow. Experimentally infected mouse skin biopsies were analyzed by a shotgun Ge-LC-MS/MS strategy to identify Borrelia target proteins. Then we developed targeted LC-SRM assays with or without gel prefractionation. Finally, these targeted methods were transferred on tick-infected human skin samples.     

Is There a Link between Exertional Heat Stroke and Susceptibility to Malignant Hyperthermia?

Objective

The identification of a predisposition toward malignant hyperthermia (MH) as a risk factor for exertional heat stroke (EHS) remains a matter of debate. Such a predisposition indicates a causal role for MH susceptibility (MHS) after EHS in certain national recommendations and has led to the use of an in vitro contracture test (IVCT) to identify the MHS trait in selected or unselected EHS patients. The aim of this study was to determine whether the MHS trait is associated with EHS.

Methods

EHS subjects in the French Armed Forces were routinely examined for MHS after experiencing an EHS episode. This retrospective study compared the features of IVCT-diagnosed MHS (iMHS) EHS subjects with those of MH-normal EHS patients and MH patients during the 2004–2010 period. MHS status was assessed using the European protocol.

Results

During the study period, 466 subjects (median age 25 years; 31 women) underwent MHS status investigation following an EHS episode. None of the subjects reported previous MH events. An IVCT was performed in 454 cases and was diagnostic of MHS in 45.6% of the study population, of MH susceptibility to halothane in 18.5%, of MH susceptibility to caffeine in 9.9%, and of MH susceptibility to halothane and caffeine in 17.2%. There were no differences in the clinical features, biological features or outcomes of iMHS EHS subjects compared with those of MH-normal or caffeine or halothane MHS subjects without known prior EHS episode. The recurrence rate was 12.7% and was not associated with MH status or any clinical or biological features. iMHS EHS patients exhibited a significantly less informative IVCT response than MH patients.

Conclusions

The unexpected high prevalence of the MHS trait after EHS suggested a latent disturbance of calcium homeostasis that accounted for the positive IVCT results. This study did not determine whether EHS patients have an increased risk of MH, and it could not determine whether MH susceptibility is a risk factor for EHS.     

Development and Validation of the Body Size Scale for Assessing Body Weight Perception in African Populations

Background

The social valorisation of overweight in African populations could promote high-risk eating behaviours and therefore become a risk factor of obesity. However, existing scales to assess body image are usually not accurate enough to allow comparative studies of body weight perception in different African populations. This study aimed to develop and validate the Body Size Scale (BSS) to estimate African body weight perception.

Methods

Anthropometric measures of 80 Cameroonians and 81 Senegalese were used to evaluate three criteria of adiposity: body mass index (BMI), overall percentage of fat, and endomorphy (fat component of the somatotype). To develop the BSS, the participants were photographed in full face and profile positions. Models were selected for their representativeness of the wide variability in adiposity with a progressive increase along the scale. Then, for the validation protocol, participants self-administered the BSS to assess self-perceived current body size (CBS), desired body size (DBS) and provide a “body self-satisfaction index.” This protocol included construct validity, test-retest reliability and convergent validity and was carried out with three independent samples of respectively 201, 103 and 1115 Cameroonians.

Results

The BSS comprises two sex-specific scales of photos of 9 models each, and ordered by increasing adiposity. Most participants were able to correctly order the BSS by increasing adiposity, using three different words to define body size. Test-retest reliability was consistent in estimating CBS, DBS and the “body self-satisfaction index.” The CBS was highly correlated to the objective BMI, and two different indexes assessed with the BSS were consistent with declarations obtained in interviews.

Conclusion

The BSS is the first scale with photos of real African models taken in both full face and profile and representing a wide and representative variability in adiposity. The validation protocol proved its reliability for estimating body weight perception in Africans.     

Reaction of wild-type and Glu243Asp variant yeast cytochrome c oxidase with O2

We have studied internal electron transfer during the reaction of Saccharomyces cerevisiae mitochondrial cytochrome c oxidase with dioxygen. Similar absorbance changes were observed with this yeast oxidase as with the previously studied Rhodobacter sphaeroides and bovine mitochondrial oxidases, which suggests that the reaction proceeds along the same trajectory. However, notable differences were observed in rates and electron-transfer equilibrium constants of specific reaction steps, for example the ferryl (F) to oxidized (O) reaction was faster with the yeast (0.4 ms) than with the bovine oxidase (~ 1 ms) and a larger fraction Cu_A was oxidized with the yeast than with the bovine oxidase in the peroxy (P_R) to F reaction. Furthermore, upon replacement of Glu243, located at the end of the so-called D proton pathway, by Asp the P_R → F and F → O reactions were slowed by factors of ~ 3 and ~ 10, respectively, and electron transfer from Cu_A to heme a during the P_R → F reaction was not observed. These data indicate that during reduction of dioxygen protons are transferred through the D pathway, via Glu243, to the catalytic site in the yeast mitochondrial oxidase. This article is part of a Special Issue entitled: 18th European Bioenergetic Conference.     

NAD(P)H Quinone-Oxydoreductase 1 Protects Eukaryotic Translation Initiation Factor 4GI from Degradation by the Proteasome

The eukaryotic translation initiation factor 4GI (eIF4GI) serves as a central adapter in cap-binding complex assembly. Although eIF4GI has been shown to be sensitive to proteasomal degradation, how the eIF4GI steady-state level is controlled remains unknown. Here, we show that eIF4GI exists in a complex with NAD(P)H quinone-oxydoreductase 1 (NQO1) in cell extracts. Treatment of cells with dicumarol (dicoumarol), a pharmacological inhibitor of NQO1 known to preclude NQO1 binding to its protein partners, provokes eIF4GI degradation by the proteasome. Consistently, the eIF4GI steady-state level also diminishes upon the silencing of NQO1 (by transfection with small interfering RNA), while eIF4GI accumulates upon the overexpression of NQO1 (by transfection with cDNA). We further reveal that treatment of cells with dicumarol frees eIF4GI from mRNA translation initiation complexes due to strong activation of its natural competitor, the translational repressor 4E-BP1. As a consequence of cap-binding complex dissociation and eIF4GI degradation, protein synthesis is dramatically inhibited. Finally, we show that the regulation of eIF4GI stability by the proteasome may be prominent under oxidative stress. Our findings assign NQO1 an original role in the regulation of mRNA translation via the control of eIF4GI stability by the proteasome.In eukaryotes, eukaryotic translation initiation factor 4G (eIF4G) plays a central role in the recruitment of ribosomes to the mRNA 5′ end and is therefore critical for the regulation of protein synthesis (14). Two homologues of eIF4G, eIF4GI and eIF4GII, have been cloned (15). Although they differ in various respects, both homologues clearly function in translation initiation. The most thoroughly studied of these is eIF4GI, which serves as a scaffolding protein for the assembly of eIF4F, a protein complex composed of eIF4E (the mRNA cap-binding factor) and eIF4A (an ATP-dependent RNA helicase). Thus, via its association with the mRNA cap-binding protein eIF4E and with another translation initiation factor (eIF3) which is bound to the 40S ribosomal subunit, eIF4GI creates a physical link between the mRNA cap structure and the ribosome, thus facilitating cap-dependent translation initiation (25). eIF4GI functions also in cap-independent, internal ribosome entry site (IRES)-mediated translation initiation. For instance, upon picornavirus infection, eIF4G is rapidly attacked by viral proteases. The resulting eIF4GI cleavage products serve to reprogram the cell''s translational machinery, as the N-terminal cleavage product inhibits cap-dependent translation of host cell mRNAs by sequestering eIF4E while the C-terminal cleavage product stimulates IRES-mediated translation of viral mRNAs (23). Similarly, apoptotic caspases cleave eIF4G into an N-terminal fragment that blocks cap-dependent translation and a C-terminal fragment that is utilized for IRES-mediated translation of mRNAs encoding proapoptotic proteins (22).The regulation of eIF4GI cleavage by viral proteases or apoptotic caspases has been extensively studied. Little is known, however, about the regulation of eIF4GI steady-state levels. Yet the eIF4GI amount that exists at a given moment results from the sum of the effects of de novo synthesis and ongoing degradation. Many cellular proteins are physiologically degraded by the proteasome. This has been shown to be true for eIF4GI, as the factor can be degraded by the proteasome in vitro (5) and in living cells (6). However, how eIF4GI targeting for or protection from destruction by the proteasome is regulated remains unknown.There are two major routes to degradation by the proteasome. In the more conventional route, polyubiquitinated proteins are targeted to the 26S proteasome. Alternatively, a few proteins can be degraded by the 20S proteasome (and sometimes by the 26S proteasome) in a ubiquitin-independent manner (16). Interestingly, it has been shown recently that a few of these proteins (1, 2, 13) can be protected from degradation by the 20S proteasome by binding to the NAD(P)H quinone-oxydoreductase 1 (NQO1). It has been proposed that NQO1 may interact with the 20S proteasome and may consequently block access of target proteins to the 20S degradation core. Because eIF4GI can be degraded in vitro by the 20S proteasome (5) and since it appears that proteasomes can degrade eIF4GI in living cells independently of ubiquitination (6), we asked whether NQO1 could protect eIF4GI from degradation by the proteasome.     

FES kinase participates in KIT-ligand induced chemotaxis

FES is a cytoplasmic tyrosine kinase activated by several membrane receptors, originally identified as a viral oncogene product. We have recently identified FES as a crucial effector of oncogenic KIT mutant receptor. However, FES implication in wild-type KIT receptor function was not addressed. We report here that FES interacts with KIT and is phosphorylated following activation by its ligand SCF. Unlike in the context of oncogenic KIT mutant, FES is not involved in wild-type KIT proliferation signal, or in cell adhesion. Instead, FES is required for SCF-induced chemotaxis. In conclusion, FES kinase is a mediator of wild-type KIT signalling implicated in cell migration.