Transmitted drug resistant HIV-1 and association with virologic and CD4 cell count response to combination antiretroviral therapy in the EuroSIDA Study.

OBJECTIVES: To investigate prevalence of transmitted drug-resistant human immunodeficiency virus (TDR) and factors associated with TDR and to compare virological and CD4 count response to combination antiretroviral therapy. METHODS: In this study, 525 mostly chronically infected EuroSIDA patients were included who had genotypic resistance tests performed on plasma samples collected while antiretroviral therapy naive. TDR was defined as at least one resistance mutation from a list proposed for genotypic TDR surveillance. Multivariable logistic regression was used to analyze factors associated with detection of TDR, with virological (viral load<500 copies/mL) and CD4 count response (>or=50% increase) to combination antiretroviral therapy at months 6-12. RESULTS: The overall prevalence of TDR was 11.4%, which was stable over 1996-2004. There were no significant differences in virological suppression (those resistant to at least one drug prescribed versus susceptible), adjusted odds ratio: 0.68 (95% confidence interval: 0.27 to 1.71; P=0.408) or CD4 count response, adjusted odds ratio: 1.65 (95% confidence interval: 0.73 to 3.73; P=0.231). CONCLUSIONS: Prevalence of TDR in antiretroviral-naive patients was found to be in line with other European studies. No significant differences were found in virological and CD4 count response after initiation of first-line combination antiretroviral therapy between resistant and susceptible patients, possibly due to the small number of patients with resistance and consequently low power.

High-dose daptomycin plus fosfomycin is safe and effective in treating methicillin-susceptible and methicillin-resistant Staphylococcus aureus endocarditis.

We describe 3 patients with left-sided staphylococcal endocarditis (1 with methicillin-susceptible Staphylococcus aureus [MSSA] prosthetic aortic valve endocarditis and 2 with methicillin-resistant S. aureus [MRSA] native-valve endocarditis) who were successfully treated with high-dose intravenous daptomycin (10 mg/kg/day) plus fosfomycin (2 g every 6 h) for 6 weeks. This combination was tested in vitro against 7 MSSA, 5 MRSA, and 2 intermediately glycopeptide-resistant S. aureus isolates and proved to be synergistic against 11 (79%) strains and bactericidal against 8 (57%) strains. This combination deserves further clinical study.

The discriminatory power of MALDI-TOF mass spectrometry to differentiate between isogenic teicoplanin-susceptible and teicoplanin-resistant strains of methicillin-resistant Staphylococcus aureus.

To explore the discriminatory power of matrix-assisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF MS) for detecting subtle differences in isogenic isolates, we tested isogenic strains of Staphylococcus aureus differing in their expression of resistance to methicillin or teicoplanin. More important changes in MALDI-TOF MS spectra were found with strains differing in methicillin than in teicoplanin resistance. In comparison, very minor or no changes were recorded in pulsed-field gel electrophoresis profiles or peptidoglycan muropeptide digest patterns of these strains, respectively. MALDI-TOF MS might be useful to detect subtle strain-specific differences in ionizable components released from bacterial surfaces and not from their peptidoglycan network.

Meropenem prevents levofloxacin-induced resistance in penicillin-resistant pneumococci and acts synergistically with levofloxacin in experimental meningitis.

The aim of the present study was to investigate the potential synergy between meropenem and levofloxacin in vitro and in experimental meningitis and to determine the effect of meropenem on levofloxacin-induced resistance in vitro. Meropenem increased the efficacy of levofloxacin against the penicillin-resistant pneumococcal strain KR4 in time-killing assays in vitro and acted synergistically against a second penicillin-resistant strain WB4. In the checkerboard, only an additive effect (FIC indices: 1.0) was observed for both strains. In cycling experiments in vitro, levofloxacin alone led to a 64-fold increase in the MIC for both strains after 12 cycles. Addition of meropenem in sub-MIC concentrations (0.25 x MIC) completely inhibited the selection of levofloxacin-resistant mutants in WB4 after 12 cycles. In KR4, the addition of meropenem led to just a twofold increase in the MIC for levofloxacin after 12 cycles. Mutations detected in the genes encoding for topoisomerase IV (parC) and gyrase (gyrA) confirmed the levofloxacin-induced resistance in both strains. Addition of meropenem was able to completely suppress levofloxacin-induced mutations in WB4 and led to only one mutation in parE in KR4. In experimental meningitis, meropenem, given in two doses (2 x 125 mg/kg), produced a good bactericidal activity (-0.45 Deltalog10 cfu/ml.h) comparable to one dose (1 x 10 mg/kg) of levofloxacin (-0.44 Deltalog10 cfu/ml.h) against the penicillin-resistant strain WB4. Meropenem combined with levofloxacin acted synergistically (-0.93 Deltalog10 cfu/ml.h), sterilizing the CSF of all rabbits.

Evaluation of Soybean Varieties Resistant to Soybean Cyst Nematode in Iowa, 2007

Use of resistant soybean varieties is a very effective strategy for managing soybean cyst nematode (SCN), and numerous SCN-resistant soybean varieties are available for Iowa soybean growers. Each year, public and private SCN-resistant soybean varieties are evaluated in SCN-infested fields throughout Iowa by Iowa State University personnel. The research described in this report was performed to assess the agronomic performance of maturity group (MG) I, II, and III SCN-resistant soybean varieties and to determine the effects of the varieties on SCN numbers or population densities.

Efficacy of daptomycin in implant-associated infection due to methicillin-resistant Staphylococcus aureus: importance of combination with rifampin.

Limited treatment options are available for implant-associated infections caused by methicillin (meticillin)-resistant Staphylococcus aureus (MRSA). We compared the activity of daptomycin (alone and with rifampin [rifampicin]) with the activities of other antimicrobial regimens against MRSA ATCC 43300 in the guinea pig foreign-body infection model. The daptomycin MIC and the minimum bactericidal concentration in logarithmic phase and stationary growth phase of MRSA were 0.625, 0.625, and 20 microg/ml, respectively. In time-kill studies, daptomycin showed rapid and concentration-dependent killing of MRSA in stationary growth phase. At concentrations above 20 microg/ml, daptomycin reduced the counts by >3 log(10) CFU/ml in 2 to 4 h. In sterile cage fluid, daptomycin peak concentrations of 23.1, 46.3, and 53.7 microg/ml were reached 4 to 6 h after the administration of single intraperitoneal doses of 20, 30, and 40 mg/kg of body weight, respectively. In treatment studies, daptomycin alone reduced the planktonic MRSA counts by 0.3 log(10) CFU/ml, whereas in combination with rifampin, a reduction in the counts of >6 log(10) CFU/ml was observed. Vancomycin and daptomycin (at both doses) were unable to cure any cage-associated infection when they were given as monotherapy, whereas rifampin alone cured the infections in 33% of the cages. In combination with rifampin, daptomycin showed cure rates of 25% (at 20 mg/kg) and 67% (at 30 mg/kg), vancomycin showed a cure rate of 8%, linezolid showed a cure rate of 0%, and levofloxacin showed a cure rate of 58%. In addition, daptomycin at a high dose (30 mg/kg) completely prevented the emergence of rifampin resistance in planktonic and adherent MRSA cells. Daptomycin at a high dose, corresponding to 6 mg/kg in humans, in combination with rifampin showed the highest activity against planktonic and adherent MRSA. Daptomycin plus rifampin is a promising treatment option for implant-associated MRSA infections.

Genetic deficiency of tartrate-resistant acid phosphatase associated with skeletal dysplasia, cerebral calcifications and autoimmunity.

Vertebral and metaphyseal dysplasia, spasticity with cerebral calcifications, and strong predisposition to autoimmune diseases are the hallmarks of the genetic disorder spondyloenchondrodysplasia. We mapped a locus in five consanguineous families to chromosome 19p13 and identified mutations in ACP5, which encodes tartrate-resistant phosphatase (TRAP), in 14 affected individuals and showed that these mutations abolish enzyme function in the serum and cells of affected individuals. Phosphorylated osteopontin, a protein involved in bone reabsorption and in immune regulation, accumulates in serum, urine and cells cultured from TRAP-deficient individuals. Case-derived dendritic cells exhibit an altered cytokine profile and are more potent than matched control cells in stimulating allogeneic T cell proliferation in mixed lymphocyte reactions. These findings shed new light on the role of osteopontin and its regulation by TRAP in the pathogenesis of common autoimmune disorders.

Use of long-term suppressive acyclovir after hematopoietic stem-cell transplantation: impact on herpes simplex virus (HSV) disease and drug-resistant HSV disease.

The effect that long-term use of suppressive acyclovir (ACV) has on both overall herpes simplex virus (HSV) disease and ACV-resistant HSV disease was examined in 3 consecutive cohorts of hematopoietic stem-cell transplant (HCT) recipients (n=2049); cohort 1 received ACV for 30 days after HCT, cohort 2 received it for 1 year after HCT, and cohort 3 received it for an extended period (i.e., >1 year) if the patient's immunosuppression continued after 1 year. The 2-year probability of HSV disease was 31.6% (95% confidence interval [CI], 28.0%-35%) in cohort 1, 3.9% (95% CI, 2.7%-5.2%) in cohort 2, and 0% in cohort 3 (P<.001). ACV-resistant HSV disease developed in 10 patients in cohort 1 (2-year probability, 1.3% [95% CI, 0.8%-2.7%]), in 2 patients in cohort 2 (2-year probability, 0.2% [95% CI, 0%-0.8%]; P=.006), and in 0 patients in cohort 3 (cohort 2 vs. cohort 3, P=.3). Long-term use of suppressive prophylactic ACV appears to prevent the emergence of drug-resistant HSV disease in HCT.

High activity of Fosfomycin and Rifampin against methicillin-resistant staphylococcus aureus biofilm in vitro and in an experimental foreign-body infection model.

Increasing antimicrobial resistance reduces treatment options for implant-associated infections caused by methicillin-resistant Staphylococcus aureus (MRSA). We evaluated the activity of fosfomycin alone and in combination with vancomycin, daptomycin, rifampin, and tigecycline against MRSA (ATCC 43300) in a foreign-body (implantable cage) infection model. The MICs of the individual agents were as follows: fosfomycin, 1 μg/ml; daptomycin, 0.125 μg/ml; vancomycin, 1 μg/ml; rifampin, 0.04 μg/ml; and tigecycline, 0.125 μg/ml. Microcalorimetry showed synergistic activity of fosfomycin and rifampin at subinhibitory concentrations against planktonic and biofilm MRSA. In time-kill curves, fosfomycin exhibited time-dependent activity against MRSA with a reduction of 2.5 log10 CFU/ml at 128 × the MIC. In the animal model, planktonic bacteria in cage fluid were reduced by <1 log10 CFU/ml with fosfomycin and tigecycline, 1.7 log10 with daptomycin, 2.2 log10 with fosfomycin-tigecycline and fosfomycin-vancomycin, 3.8 log10 with fosfomycin-daptomycin, and >6.0 log10 with daptomycin-rifampin and fosfomycin-rifampin. Daptomycin-rifampin cured 67% of cage-associated infections and fosfomycin-rifampin cured 83%, whereas all single drugs (fosfomycin, daptomycin, and tigecycline) and rifampin-free fosfomycin combinations showed no cure of MRSA cage-associated infections. No emergence of fosfomycin resistance was observed in animals; however, a 4-fold increase in fosfomycin MIC (from 2 to 16 μg/ml) occurred in the fosfomycin-vancomycin group. In summary, the highest eradication of MRSA cage-associated infections was achieved with fosfomycin in combination with rifampin (83%). Fosfomycin may be used in combination with rifampin against MRSA implant-associated infections, but it cannot replace rifampin as an antibiofilm agent.

Characterization of the staphylococcal cassette chromosome mec insertion site in 108 isolates lacking the mecA gene and identified as methicillin-resistant Staphylococcus aureus by the Xpert MRSA assay.

During a 3-year period, 848 patients were detected as carriers of methicillin-resistant Staphylococcus aureus (MRSA) by the Xpert MRSA assay (Cepheid). Among them, 108 patients (12.7 %) were colonized with strains showing methicillin-susceptible phenotypes and absence of the mecA gene, despite being positive with the rapid polymerase chain reaction (PCR) assay. DNA sequences of the staphylococcal cassette chromosome mec (SCCmec) insertion site of these "false-positive" strains was determined by direct sequencing of the genomic DNA. More than half (53.7 %) of the strains had DNA sequences unrelated to either SCC or SCCmec and one-third had DNA sequences related to non-mec SCC. Only 10.2 % of the strains carried sequences related to SCCmec, suggesting that a sequence containing the mecA gene was lost from an SCCmec. These findings differ from the general idea that all methicillin-susceptible S. aureus having positive Xpert MRSA assay results are essentially MRSA that lost the mecA gene.

Oxidative phosphorylation flexibility in the liver of mice resistant to high-fat diet-induced hepatic steatosis.

OBJECTIVE To identify metabolic pathways that may underlie susceptibility or resistance to high-fat diet-induced hepatic steatosis. RESEARCH DESIGN AND METHODS We performed comparative transcriptomic analysis of the livers of A/J and C57Bl/6 mice, which are, respectively, resistant and susceptible to high-fat diet-induced hepatosteatosis and obesity. Mice from both strains were fed a normal chow or a high-fat diet for 2, 10, and 30 days, and transcriptomic data were analyzed by time-dependent gene set enrichment analysis. Biochemical analysis of mitochondrial respiration was performed to confirm the transcriptomic analysis. RESULTS Time-dependent gene set enrichment analysis revealed a rapid, transient, and coordinate upregulation of 13 oxidative phosphorylation genes after initiation of high-fat diet feeding in the A/J, but not in the C57Bl/6, mouse livers. Biochemical analysis using liver mitochondria from both strains of mice confirmed a rapid increase by high-fat diet feeding of the respiration rate in A/J but not C57Bl/6 mice. Importantly, ATP production was the same in both types of mitochondria, indicating increased uncoupling of the A/J mitochondria. CONCLUSIONS Together with previous data showing increased expression of mitochondrial β-oxidation genes in C57Bl/6 but not A/J mouse livers, our present study suggests that an important aspect of the adaptation of livers to high-fat diet feeding is to increase the activity of the oxidative phosphorylation chain and its uncoupling to dissipate the excess of incoming metabolic energy and to reduce the production of reactive oxygen species. The flexibility in oxidative phosphorylation activity may thus participate in the protection of A/J mouse livers against the initial damages induced by high-fat diet feeding that may lead to hepatosteatosis.

Mechanisms of antifungal resistance in the opportunistic fungus Aspergillus fumigatus

ABSTRACT Aspergillus fumigatus is one of the most prevalent airbone fungal pathogen and can cause severe fatal invasive aspergillosis in immunocompromised patients. Several antifungal agents are available to treat these infections but with limited success. These agents include polyenes (amphotericin B), echinocandins (caspofungin) and azoles, which constitute the most important class with itraconazole (ITC) and voriconazole as major active compounds. Azole-derived antifungal agents target the ergosterol biosynthesis pathway via the inhibition of the lanosterol 14α-demethylase (cyp51/ERG1 1), a cytochrome P450 responsible for the conversion of lanosterol to ergosterol, which is the main component of cell membrane in fungi. A. fumigatus is also found in the environment as a contaminant of rotting plant or present in composting of organic waste. Among antifungal agents used in the environment for crop protection, the class of azoles is also widely used with propiconazole or prochloraz as examples. However, other agents such as dicarboximide (iprodione), phenylamide (benalaxyl) or strobilurin (azoxystrobin) are also used. Emergence of clinical azole-resistant isolates has been described in several European countries. However the incidence of antifungal resistance has not been yet reported in details in Switzerland. In this study, the status of antifungal resistance was investigated on A. fumigatus isolates collected from Swiss hospitals and from different environmental sites and. tested for their susceptibility to several currently used antifungal agents. The data showed a low incidence of resistance for all tested agents among clinical and environmental isolates. Only two azole-resistant environmental isolates were detected and none among the clinical tested isolates. In general, A. fumigatus was susceptible to all antifungals tested in our study, except to azoxystrobin which was the less active agent against all isolates. Since mechanisms of antifungal resistance have been poorly investigated until now in A. fumigatus, this work was aimed 1) to identify A. fumigatus genes involved in antifungal resistance and 2) to test their involvement in the development of resistance in sampled isolates. Therefore, this work proposed to isolate A. fumigatus genes conferring resistance to a drug-hypersusceptible Saccharomyces cerevisiae strain due to a lack of multidrug transporter genes. Several genes were recovered including three distinct efflux transporters (atrF, atrH and mdrA) and a bZip transcription factor, yapA. The inactivation of each transporter in A. fumigatus indicated that the transporters were involved in the basal level of azole susceptibility. The inactivation of YapA led to a hypersusceptibility to H2O2, thus confirming the involvement of this gene in the oxidative stress response of A. fumigatus. The involvement of the abovementioned transporters genes and of other transporters genes identified by genome analysis in azole resistance was tested by probing their expression in some ITC-resistant isolates. Even if upregulation of some transporters genes was observed in some investigated isolates, the correlation between azole resistance and expression levels of all these transporters genes could not be clearly established for all tested isolates. Given these results, the present work addressed 1) alteration in the expression of cyp51A encoding for the azole target enzyme, and 2) mutation(s) in the cyp51A sequence as potential mechanisms of azote resistance in A. . However, overexpression of cyp51A in the investigated isolates was not linked with azote resistance. Since it was reported that mutation(s) in cyp51A were participating in azote resistance in A. fumigatus, a functional complementation of cyp51A cDNAs from ITC-resistant A. fumigatus strains in S. cerevisiae ergl 1 Δ mutant strain was attempted. Expression in S. cerevisiae allowed the testing of these cDNAs with regards to their functionality and involvement in resistance to specific azote compounds. We could demonstrate that Cyp51A protein with a G54E or M220K mutations conferred resistance to specific azoles in S. cerevisiae, therefore suggesting that these mutations were important for the development of azote resistance in A. fumigatus. In conclusion, this work showed a correlation between ITC resistance and mechanisms involving overexpression of transporters and cyp51A mutations in A. fumigatus isolates. However, azole resistance of some isolates has not been solved and thus it will be necessary to approach the study of resistance mechanisms in this fungal species using alternative methodologies. RESUME Aspergillus fumigatus est un champignon opportuniste répandu et est la cause d'aspergilloses invasives le plus souvent fatales chez des patients immunodéprimés. Plusieurs antifongiques sont disponibles afin de traiter ces infections, cependant avec un succès limité. Ces agents incluent les polyènes (amphotericin B), les échinocandines (caspofungin) et les azoles, qui représentent la plus importante classe d'antifongiques avec l'itraconazole (ITC) et le voriconazole comme principaux agents actifs. Les dérivés azolés ciblent la voie de biosynthèse de l'ergostérol via l'inhibition de la lanostérol 14α-demethylase (cyp51/ERG11), un cytochrome P450 impliqué dans la conversion du lanostérol en ergostérol, qui est un composant important de la membrane chez les champignons. A. fumigatus est également répandu dans l'environnement. Parmi les antifongiques employés en agriculture afin de protéger les cultures, les azoles sont aussi largement utilisés. Cependant, d'autres agents tels que les dicarboximides (iprodione), les phenylamides (benalaxyl) et les strobilurines (azoxystrobin) peuvent être également utilisés. L'émergence de souches cliniques résistantes aux azoles a été décrite dans différents pays européens. Cependant, l'incidence d'une telle résistance aux azoles n'a pas encore été reportée en détails en Suisse. Dans ce travail, l'émergence de la résistance aux antifongiques a été étudiée par analyse de souches d'A. fumigatus provenant de milieux hospitaliers en Suisse et de différents sites et leur susceptibilité testée envers plusieurs antifongiques couramment utilisés. Les données obtenues ont montré une faible incidence de la résistance parmi les souches cliniques et environnementales pour les agents testés. Seulement deux souches environnementales résistantes aux azoles ont été détectées et aucune parmi les souches cliniques. Les mécanismes de résistance aux antifongiques ayant été très peu étudiés jusqu'à présent chez A. fumigatus , ce travail a eu aussi pour but 1) d'identifier les gènes d' A. fumigatus impliqués dans la résistance aux antifongiques et 2) de tester leur implication dans la résistance de certaines souches. Ainsi, il a été proposé d'isoler les gènes d' A. fumigatus pouvant conférer une résistance aux antifongiques à une souche de Saccharomyces cerevisiae hypersensible aux antifongiques. Trois transporteurs à efflux (atrF, atrH et mdrA) et un facteur de transcription appartenant à la famille des bZip (YapA) ont ainsi été isolés. L'inactivation, dans une souche d'A. fumigatus, de chacun des ces transporteurs a permis de mettre en évidence leur implication dans la susceptibilité d'A. fumigatus aux antifongiques. L'inactivation de YapA a engendré une hypersusceptibilité à l' H2O2, confirmant ainsi le rôle de ce gène dans la réponse au stress oxydatif chez A . fumigatus. La participation dans la résistance aux antifongiques des gènes codant pour des transporteurs ainsi que d'autres gènes identifiés par analyse du génome a été déterminée en testant leur niveau d'expression dans des souches résistantes à l'ITC. Bien qu'une surexpression de transporteurs ait été observée dans certaines souches, une corrélation entre la résistance à l'ITC et les niveaux d'expression de ces transporteurs n'a pu être clairement établie. Ce présent travail s'est donc porté sur l'étude de 2 autres mécanismes potentiellement impliqués dans la résistance aux azoles : 1) la surexpression de cyp51A codant pour l'enzyme cible et 2) des mutations dans cyp51A. Cependant, la surexpression de cyp51A dans les souches étudiées n'a pas été constatée. L'effet des mutations de cyp51A dans la résistance aux azoles a été testée par complémentation fonctionnelle d'une souche S. cerevisiae déletée dans son gène ERG11. L'expression de ces gènes chez S. cerevisiae a permis de démontrer que les protéines Cyp51Ap contenant une mutation G54E ou M220K pouvaient conférer une résistance spécifique à certains azoles, ainsi suggérant que ces mutations pourraient être importantes dans le développement d'une résistance aux azoles chez A. fumigatus. En conclusion, ce travail a permis de mettre en évidence, dans des souches d'A. fumigatus , une corrélation entre leur résistance à l' ITC et les mécanismes impliquant une surexpression de transporteurs et des mutations dans cyp51A. Cependant, ces mécanismes n'ont pu expliquer la résistance aux azoles de certaines souches et c'est pourquoi de nouvelles approches doivent être envisagées afin d'étudier ces mécanismes.

Global transcriptional programs in peripheral nerve endoneurium and DRG are resistant to the onset of type 1 diabetic neuropathy in Ins2 mice.

While the morphological and electrophysiological changes underlying diabetic peripheral neuropathy (DPN) are relatively well described, the involved molecular mechanisms remain poorly understood. In this study, we investigated whether phenotypic changes associated with early DPN are correlated with transcriptional alterations in the neuronal (dorsal root ganglia [DRG]) or the glial (endoneurium) compartments of the peripheral nerve. We used Ins2(Akita/+) mice to study transcriptional changes underlying the onset of DPN in type 1 diabetes mellitus (DM). Weight, blood glucose and motor nerve conduction velocity (MNCV) were measured in Ins2(Akita/+) and control mice during the first three months of life in order to determine the onset of DPN. Based on this phenotypic characterization, we performed gene expression profiling using sciatic nerve endoneurium and DRG isolated from pre-symptomatic and early symptomatic Ins2(Akita/+) mice and sex-matched littermate controls. Our phenotypic analysis of Ins2(Akita/+) mice revealed that DPN, as measured by reduced MNCV, is detectable in affected animals already one week after the onset of hyperglycemia. Surprisingly, the onset of DPN was not associated with any major persistent changes in gene expression profiles in either sciatic nerve endoneurium or DRG. Our data thus demonstrated that the transcriptional programs in both endoneurial and neuronal compartments of the peripheral nerve are relatively resistant to the onset of hyperglycemia and hypoinsulinemia suggesting that either minor transcriptional alterations or changes on the proteomic level are responsible for the functional deficits associated with the onset of DPN in type 1 DM.

Presence of T 145 on cytolytic T cell lines and their lectin-resistant mutants.

Murine cytolytic T cell lines have been analyzed for the expression of two surface glycoproteins called T145 and T130. T145, known to be expressed by activated cytolytic T cells, is also expressed by such lines, but T130, which has been described by a universal T cell marker, is not. Our results suggest a structural relationship between T145 and T130. Vicia villosa lectin, which binds selectively to T145 of activated T cells and which is cytotoxic for cytolytic T cell lines, has been used to select lectin-resistant mutants from these lines. Five independent lectin-resistant mutants have been obtained. All of them are cytolytically active, bind up to 100-fold less lectin than the parental lines, but still express T145 or a closely related glycoprotein.