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Antimicrobial Agents and Chemotherapy Jun 2020Anidulafungin and micafungin were quantified in cerebrospinal fluid (CSF) of critically ill adults and in cerebral cortex of deceased patients. In CSF, anidulafungin...
Anidulafungin and micafungin were quantified in cerebrospinal fluid (CSF) of critically ill adults and in cerebral cortex of deceased patients. In CSF, anidulafungin levels (<0.01 to 0.66 μg/ml) and micafungin levels (<0.01 to 0.16 μg/ml) were lower than those in plasma concentrations (0.77 to 5.07 and 1.21 to 8.70 μg/ml, respectively) drawn simultaneously. In cerebral cortex, anidulafungin and micafungin levels were 0.21 to 2.34 and 0.18 to 2.88 μg/g, respectively. Thus, MIC values of several pathogenic strains exceed concentrations in CSF and in brain.
Topics: Adult; Anidulafungin; Antifungal Agents; Cerebral Cortex; Echinocandins; Humans; Lipopeptides; Micafungin; Microbial Sensitivity Tests
PubMed: 32340985
DOI: 10.1128/AAC.00275-20 -
Revista Espanola de Quimioterapia :... Jun 2008Anidulafungin is a new echinocandin antifungal agent recently approved in Spain by the Spanish Drug Agency. As other echinocandins, it inhibits a selective target, 1,3-... (Review)
Review
Anidulafungin is a new echinocandin antifungal agent recently approved in Spain by the Spanish Drug Agency. As other echinocandins, it inhibits a selective target, 1,3- beta-D-glucan synthesis, a major structural component of the fungal cell wall which is not present in mammalian cells, this avoiding toxicity problems. It has fungicidal activity against many Candida spp., including fluconazole-resistant, and fungistatic activity against other yeast and moulds such as Aspergillus spp. Clinical trials have shown non-inferiority of anidulafungin to fluconazole for invasive, including candidemia, and non-invasive Candida infections. It is well-tolerated, and no drug-related serious adverse events have been reported. Anidulafungin, which has a very long half life, is slowly degraded by human peptidases and proteases and has a low drug-drug interaction profile based on its lack of interaction with the cytochrome P450 system. Thus, dosing adjustments of anidulafungin based on age, gender, body weight, disease status, concomitant therapy or renal or hepatic insufficiency is not necessary. As it does not interact with amphotericin B and voriconazole, cyclosporine, tacrolimus and other drugs, it can be used in combination with other antifungal agents and co-administered with immunosuppressant drugs. It is generally well-tolerated in clinical trials. Its most frequent adverse events are nausea, vomiting, moderate diarrhea, transient elevation of hepatic enzymes and headache. Some of the patients have mild, passing reactions such as facial blushing, nausea and dyspnea related with rapid intravenous perfusion. Its antifungal activity, clinical efficacy, safety profile, and pharmacokinetic characteristics make it a suitable alternative antifungal compound for therapy of mucosal candidiasis, candidemia and invasive candidiasis, above all in patients with some degree of renal and hepatic insufficiency.
Topics: Anidulafungin; Animals; Antifungal Agents; Disease Models, Animal; Echinocandins; Humans; Mycoses
PubMed: 18509769
DOI: No ID Found -
Antibiotics (Basel, Switzerland) Nov 2020Control of fungal pathogens is increasingly problematic due to the limited number of effective drugs available for antifungal therapy. Conventional antifungal drugs...
Control of fungal pathogens is increasingly problematic due to the limited number of effective drugs available for antifungal therapy. Conventional antifungal drugs could also trigger human cytotoxicity associated with the kidneys and liver, including the generation of reactive oxygen species. Moreover, increased incidences of fungal resistance to the classes of azoles, such as fluconazole, itraconazole, voriconazole, or posaconazole, or echinocandins, including caspofungin, anidulafungin, or micafungin, have been documented. Of note, certain azole fungicides such as propiconazole or tebuconazole that are applied to agricultural fields have the same mechanism of antifungal action as clinical azole drugs. Such long-term application of azole fungicides to crop fields provides environmental selection pressure for the emergence of pan-azole-resistant fungal strains such as having TR34/L98H mutations, specifically, a 34 bp insertion into the cytochrome P450 51A () gene promoter region and a leucine-to-histidine substitution at codon 98 of . Altogether, the emerging resistance of pathogens to currently available antifungal drugs and insufficiency in the discovery of new therapeutics engender the urgent need for the development of new antifungals and/or alternative therapies for effective control of fungal pathogens. We discuss the current needs for the discovery of new clinical antifungal drugs and the recent drug repurposing endeavors as alternative methods for fungal pathogen control.
PubMed: 33203147
DOI: 10.3390/antibiotics9110812 -
The Journal of Antimicrobial... Sep 2020The voriconazole and echinocandin combination has been found to be synergistic in vitro and in vivo against most Aspergillus fumigatus isolates, both with a WT azole...
BACKGROUND
The voriconazole and echinocandin combination has been found to be synergistic in vitro and in vivo against most Aspergillus fumigatus isolates, both with a WT azole phenotype and an azole-resistant phenotype. The interaction between isavuconazole and echinocandins is less well studied. This is especially true for azole-resistant isolates.
OBJECTIVES
We investigated the in vitro interaction between isavuconazole and anidulafungin for 30 A. fumigatus isolates including 18 azole-resistant isolates with various isavuconazole resistance phenotypes.
METHODS
The isavuconazole/anidulafungin interaction was studied by using an adapted EUCAST-based 2D (12 × 8) chequerboard broth microdilution colorimetric assay using XTT. The interaction was analysed by FIC index (FICi) analysis and Bliss independence (BI) interaction analysis.
RESULTS
Both the FICi analysis and the BI analysis showed synergistic interaction between isavuconazole and anidulafungin for the majority of WT and azole-resistant isolates. As we did not see significant beneficial effects of combination therapy in TR46/Y121F/T289A isolates at clinically achievable drug concentrations, it is unlikely that TR46/Y121F/T289A infections would benefit from isavuconazole and anidulafungin combination therapy.
CONCLUSIONS
In regions with high azole resistance rates this combination may benefit patients with WT disease, azole-resistant invasive aspergillosis and those with mixed azole-susceptible and azole-resistant infection, but may not be beneficial for aspergillosis due to isolates with high isavuconazole resistance, such as TR46/Y121F/T289A isolates.
Topics: Anidulafungin; Antifungal Agents; Aspergillus fumigatus; Azoles; Drug Resistance, Fungal; Fungal Proteins; Humans; Microbial Sensitivity Tests; Nitriles; Pyridines; Triazoles
PubMed: 32516368
DOI: 10.1093/jac/dkaa185 -
Indian Journal of Medical Microbiology 2018The importance of antifungal agents and their clinical implications has received little attention in comparison to antibiotics, particularly in the health-care setting.... (Review)
Review
The importance of antifungal agents and their clinical implications has received little attention in comparison to antibiotics, particularly in the health-care setting. However, apart from bacterial infections rising in hospitals, the incidences of fungal infections are growing with the development of resistance to conventional antifungal agents. Newer antifungal agents such as echinocandins (ECs) have been extensively studied over the past decade and are recognised as a superior treatment compared with prior antifungals as a first line of therapy in tertiary institutions. Caspofungin (CAS), micafungin (MICA) and anidulafungin (ANID) are the three most widely used EC antifungal agents. The treatment of biofilm-associated fungal infections affecting patients in tertiary health-care facilities has been identified as a challenge, particularly in Indian Intensive Care Unit (ICU) settings. With the rising number of critically ill patients requiring invasive devices such as central venous catheters for treatment, especially in ICUs, these devices serve as a potential source of nosocomial infections. Candida spp. colonisation is a major precursor of these infections and further complicates and prolongs treatment procedures, adding to increasing costs both for hospitals and the patient. Analysing studies involving the use of these agents can help in making critical decisions for antifungal therapy in the event of a fungal infection in the ICU. In addition, the development of resistance to antifungal agents is a crucial factor for assessing the appropriate antifungals that can be used for treatment. This review provides an overview of ANID in biofilms, along with CAS and MICA, in terms of clinical efficacy, resistance development and potency, primarily against Candida spp.
Topics: Anidulafungin; Antifungal Agents; Biofilms; Candida; Candidiasis; Caspofungin; Critical Illness; Cross Infection; Drug Resistance, Fungal; Echinocandins; Humans; Intensive Care Units; Lipopeptides; Micafungin; Microbial Sensitivity Tests; Tertiary Healthcare
PubMed: 29735833
DOI: 10.4103/ijmm.IJMM_17_400 -
European Journal of Medical Research Apr 2011Working by a distinct cell wall-specific mechanism of action, the echinocandin class of antifungals has substantially expanded the range of available treatments for... (Review)
Review
Working by a distinct cell wall-specific mechanism of action, the echinocandin class of antifungals has substantially expanded the range of available treatments for invasive Candida infections. Anidulafungin, caspofungin and micafungin were investigated versus drugs from earlier antifungal classes in large clinical trials that demonstrated their excellent clinical and microbiological efficacy in the primary treatment of invasive candidiasis. Therefore, and supported by a number of favourable pharmacological characteristics, the echinocandins rapidly became established in guidelines and clinical practice as primary treatment options for moderately to severely ill patients with invasive candidiasis. This article reviews the relevant clinical evidence that forms the basis for the use of echinocandins in the management of invasive candidiasis, and discusses their current role in the context of recent guideline recommendations and treatment optimization strategies.
Topics: Anidulafungin; Antifungal Agents; Candidiasis, Invasive; Caspofungin; Clinical Trials as Topic; Drug Interactions; Echinocandins; Guidelines as Topic; Humans; Lipopeptides; Micafungin
PubMed: 21486731
DOI: 10.1186/2047-783x-16-4-167 -
Applied Microbiology and Biotechnology Jan 2021Echinocandins are a clinically important class of non-ribosomal antifungal lipopeptides produced by filamentous fungi. Due to their complex structure, which is... (Review)
Review
Echinocandins are a clinically important class of non-ribosomal antifungal lipopeptides produced by filamentous fungi. Due to their complex structure, which is characterized by numerous hydroxylated non-proteinogenic amino acids, echinocandin antifungal agents are manufactured semisynthetically. The development of optimized echinocandin structures is therefore closely connected to their biosynthesis. Enormous efforts in industrial research and development including fermentation, classical mutagenesis, isotope labeling, and chemical synthesis eventually led to the development of the active ingredients caspofungin, micafungin, and anidulafungin, which are now used as first-line treatments against invasive mycosis. In the last years, echinocandin biosynthetic gene clusters have been identified, which allowed for the elucidation but also engineering of echinocandin biosynthesis on the molecular level. After a short description of the history of echinocandin research, this review provides an overview of the current knowledge of echinocandin biosynthesis with a special focus of the diverse structural elements, their biosynthetic background, and structure-activity relationships. KEY POINTS: • Complex and highly oxidized lipopeptides produced by fungi. • Crucial in the design of drugs: side chain, solubility, and hydrolytic stability. • Genetic methods for engineering biosynthesis have recently become available.
Topics: Antifungal Agents; Echinocandins; Fungi; Lipopeptides; Microbial Sensitivity Tests; Multigene Family
PubMed: 33270153
DOI: 10.1007/s00253-020-11022-y -
Microbiology Spectrum Dec 2022The proposed life cycle of fungi in the genus Pneumocystis has typically included both an asexual cycle via binary fission and a sexual cycle. Until recently, the...
The proposed life cycle of fungi in the genus Pneumocystis has typically included both an asexual cycle via binary fission and a sexual cycle. Until recently, the strategy used for sexual replication was largely unknown, but genomic and functional assays now support a mode known as primary homothallism (self-fertilization). The question of whether an asexual cycle contributes to the growth of these fungi remains. Treatment of Pneumocystis pneumonia in immunosuppressed rodent models with the class of drugs known as echinocandins is challenging the historical concept of asexual replication. The echinocandins target 1,3-β-D-glucan (BG) synthesis resulting in death for most fungi. Because Pneumocystis species have both non-BG expressing life cycle stages (trophic forms) and BG-expressing asci, treatment with anidulafungin and caspofungin resulted in elimination of asci, with large numbers of non-BG expressing organisms remaining in the lungs. Transcriptional analyses of anidulafungin treated Pneumocystis murina-infected lungs indicated that these agents were blocking the sexual cycle. In the present study, we explored whether there was an asexual or alternative method of replication that could rescue P. murina survival and growth in the context of anidulafungin treatment. The effects of anidulafungin treatment on early events in the sexual cycle were investigated by RT-qPCR targeting specific mating genes, including , and . Results from the and gene expression studies clearly indicated there was no rescue by an asexual cycle, supporting these fungi's reliance on the sexual cycle for survival and growth. Dysregulation of mating-associated genes showed that anidulafungin induced effects early in the mating process. The concept of a sexually obligate fungus is unique among human fungal pathogens. This reliance can be exploited for drug development and here we show a proof of principle for this unusual target. Most human fungal pathogens eschew the mammalian environment with its battery of immune responses. Pneumocystis appear to have evolved to survive in such an environment, perhaps by using sexual replication to help in DNA repair and to introduce genetic variation in its major surface antigen family because the lung is the primary environment of these pathogens. The concept of primary homothallism fits well into its chosen ecosystem, with ready mating partners expressing both mating type receptors, and a sexual cycle that can introduce beneficial genetic variation without the need for outbreeding.
Topics: Animals; Anidulafungin; Echinocandins; Ecosystem; Pneumocystis; Pneumonia, Pneumocystis
PubMed: 36287071
DOI: 10.1128/spectrum.02906-22 -
European Journal of Medical Research Apr 2011Echinocandins represent the newest class of antifungal agents. Currently, three echinocandins, anidulafungin, caspofungin and micafungin are licensed for clinical use in... (Review)
Review
Echinocandins represent the newest class of antifungal agents. Currently, three echinocandins, anidulafungin, caspofungin and micafungin are licensed for clinical use in various indications. They act as inhibitors of β-(1,3)-glucan synthesis in the fungal cell wall and have a favorable pharmacological profile. They have a broad spectrum of activity against all Candida species. Higher MIC's have been observed against C. parapsilosis and C. guilliermondii. Data from clinical trials for invasive Candida infections / candidaemia suggest that the clinical outcome of patients treated with either drug may be very similar. A comparison has been done between caspofungin and micafungin but for anidulafungin a comparative trial with another echinocandin is still lacking. All three drugs are highly effective if not superior to treatment with either fluconazole or Amphotericin B, particularly in well-defined clinical settings such as invasive Candida infections, Candida oesophagitis and candidaemia. Differences between the three echinocandins with regard to the route of metabolism, requirement for a loading dose, dose adjustment in patients with moderate to severe hepatic disease and different dosing schedules for different types of Candida infections have to be considered. Relevant drug-drug interactions of Caspofungin and Micafungin are minimal. Anidulafungin has no significant drug interactions at all. However, echinocandins are available only for intravenous use. All three agents have an excellent safety profile.
Topics: Anidulafungin; Antifungal Agents; Biofilms; Candidiasis, Invasive; Caspofungin; Drug Interactions; Drug Resistance, Fungal; Echinocandins; Humans; Lipopeptides; Micafungin; Molecular Structure
PubMed: 21486730
DOI: 10.1186/2047-783x-16-4-159 -
Pharmaceutics Apr 2023is a multidrug-resistant pathogen against which echinocandins are the drug of choice. However, information on how the chitin synthase inhibitor nikkomycin Z influences...
is a multidrug-resistant pathogen against which echinocandins are the drug of choice. However, information on how the chitin synthase inhibitor nikkomycin Z influences the killing activities of echinocandins against is currently lacking. We determined the killing activities of anidulafungin and micafungin (0.25, 1, 8, 16 and 32 mg/L each) with and without nikkomycin Z (8 mg/L) against 15 isolates representing four clades (South Asian n = 5; East Asian n = 3; South African n = 3; South American n = 4, two of which were of environmental origin). Two and one isolates from the South Asian clade harbored mutations in the hot-spot 1 (S639Y and S639P) and 2 (R1354H) regions of the gene, respectively. The anidulafungin, micafungin and nikkomycin Z MIC ranges were 0.015-4, 0.03-4 and 2->16 mg/L, respectively. Anidulafungin and micafungin alone exerted weak fungistatic activity against wild-type isolates and the isolate with a mutation in the hot-spot 2 region of but was ineffective against the isolates with a mutation in the hot-spot 1 region. The nikkomycin Z killing curves were always similar to their respective controls. Twenty-two of sixty (36.7%) anidulafungin plus nikkomycin Z and twenty-four of sixty (40%) micafungin plus nikkomycin Z combinations produced at least 100-fold decreases in the CFUs (synergy), with a 41.7% and 20% fungicidal effect, respectively, against wild-type isolates. Antagonism was never observed. Similar results were found with the isolate with a mutation in hot-spot 2 of , but the combinations were ineffective against the two isolates with prominent mutations in hot-spot 1 of . The simultaneous inhibition of β-1,3 glucan and chitin synthases in wild-type isolates produced significantly greater killing rates than either drug alone. Further studies are warranted to verify the clinical efficacy of echinocandin plus nikkomycin Z combinations against echinocandin susceptible isolates.
PubMed: 37242607
DOI: 10.3390/pharmaceutics15051365