Gene/Protein Disease Symptom Drug Enzyme Compound
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We report on the in vitro activity of the Hos2 fungal histone deacetylase (HDAC) inhibitor MGCD290 (MethylGene, Inc.) in combination with azoles against azole-resistant yeasts and molds. Susceptibility testing was performed by the CLSI M27-A3 and M38-A2 broth microdilution methods. Testing of the combinations (MGCD290 in combination with fluconazole, posaconazole, or voriconazole) was performed by the checkerboard method. The fractional inhibitory concentrations were determined and were defined as <0.5 for synergy, >or=0.5 but <4 for indifference, and >or=4 for antagonism. Ninety-one isolates were tested, as follows: 30 Candida isolates, 10 Aspergillus isolates, 15 isolates of the Zygomycetes order, 10 Cryptococcus neoformans isolates, 8 Rhodotorula isolates, 8 Fusarium isolates, 5 Trichosporon isolates, and 5 Scedosporium isolates. MGCD290 showed modest activity when it was used alone (MICs, 1 to 8 microg/ml) and was mostly active against azole-resistant yeasts, but the MICs against molds were high (16 to >32 microg/ml). MGCD290 was synergistic with fluconazole against 55 (60%) of the 91 isolates, with posaconazole against 46 (51%) of the 91 isolates, and with voriconazole against 48 (53%) of the 91 isolates. Synergy between fluconazole and MGCD290 was observed against 26/30 (87%) Candida isolates. All 23 of the 91 Candida isolates that were not fluconazole susceptible demonstrated a reduced fluconazole MIC that crossed an interpretive breakpoint (e.g., resistant [MIC, >or=64 microg/ml] to susceptible [MIC, <or=8 microg/ml]) when fluconazole was combined with MGCD290 at 0.12 to 4 microg/ml. The activity of fluconazole plus MGCD290 was also synergistic against 6/10 Aspergillus isolates. Posaconazole plus MGCD290 demonstrated synergy against 14/15 Zygomycetes (9 Rhizopus isolates and 5 Mucor isolates). Voriconazole plus MGCD290 demonstrated synergy against six of eight Fusarium isolates. Thus, MGCD290 demonstrated in vitro synergy with azoles against the majority of clinical isolates tested, including many azole-resistant isolates and genera inherently resistant to azoles (e.g., Mucor and Fusarium). Further evaluation of fungal HDAC inhibitor-azole combinations is indicated.
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PMID:Activity of MGCD290, a Hos2 histone deacetylase inhibitor, in combination with azole antifungals against opportunistic fungal pathogens. 1979 38

Previous studies examining combination therapy for invasive pulmonary aspergillosis (IPA) have revealed conflicting results, including antagonism, indifference, and enhanced effects. The most commonly employed combination for this infection includes a mold-active triazole and echinocandin. Few studies have evaluated combination therapy from a pharmacodynamic (PD) perspective, and even fewer have examined combination therapy against both wild-type and azole-resistant Cyp51 mutant isolates. The current studies aim to fill this gap in knowledge. Four Aspergillus fumigatus isolates were utilized, including a wild-type strain, an Fks1 mutant (posaconazole susceptible and caspofungin resistant), and two Cyp51 mutants (posaconazole resistant). A neutropenic murine model of IPA was used for the treatment studies. The dosing design included monotherapy with posaconazole, monotherapy with caspofungin, and combination therapy with both. Efficacy was determined using quantitative PCR, and results were normalized to known quantities of conidia (conidial equivalents [CE]). The static dose, 1-log kill dose, and associated PD target area under the curve (AUC)/MIC ratio were determined for monotherapy and combination therapy. Monotherapy experiments revealed potent activity for posaconazole, with reductions of 3 to 4 log10 Aspergillus CE/ml with the two "low"-MIC isolates. Posaconazole alone was less effective for the two isolates with higher MICs. Caspofungin monotherapy did not produce a significant decrease in fungal burden for any strain. Combination therapy with the two antifungals did not enhance efficacy for the two posaconazole-susceptible isolates. However, the drug combination produced synergistic activity against both posaconazole-resistant isolates. Specifically, the combination resulted in a 1- to 2-log10 decline in burden that would not have been predicted based on the monotherapy results for each drug. This corresponded to a reduction in the free-drug posaconazole AUC/MIC ratio needed for stasis of up to 17-fold. The data suggest that combination therapy using a triazole and an echinocandin may be a beneficial treatment strategy for triazole-resistant isolates.
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PMID:Impact of in vivo triazole and echinocandin combination therapy for invasive pulmonary aspergillosis: enhanced efficacy against Cyp51 mutant isolates. 2395 22