Your search keyword '"Perlin, David S."' showing total 19 results

1. Candida albicans Genes Modulating Echinocandin Susceptibility of Caspofungin-Adapted Mutants Are Constitutively Expressed in Clinical Isolates with Intermediate or Full Resistance to Echinocandins.

Author

Yadav, Anshuman, Sah, Sudisht K., Perlin, David S., and Rustchenko, Elena

Subjects

CANDIDA albicans, ECHINOCANDINS, INVASIVE candidiasis, GENE expression, CASPOFUNGIN

Abstract

The opportunistic fungus Candida albicans is the leading cause of invasive candidiasis in immune-compromised individuals. Drugs from the echinocandin (ECN) class, including caspofungin, are used as a first line of therapy against invasive candidiasis. The only known mechanism of clinical resistance to ECNs is point mutations in the FKS1 gene, which encodes the drug target. However, many clinical isolates developed decreased ECN susceptibilities in the absence of resistance-associated FKS1 mutations. We have identified 15 C. albicans genes that contribute to decreased drug susceptibility. We explored the expression of these 15 genes in clinical isolates with different levels of ECN susceptibility. We found that these 15 genes are expressed in clinical isolates with or without FKS1 mutations, including those strains that are less susceptible to ECNs. In addition, FKS1 expression was increased in such less susceptible isolates compared to highly susceptible isolates. Similarities of gene expression patterns between isolates with decreased ECN susceptibilities in the absence of FKS1 mutations and clinically resistant isolates with mutations in FKS1 suggest that clinical isolates with decreased ECN susceptibilities may be a precursor to development of resistance. [ABSTRACT FROM AUTHOR]

Published

2024

2. Correction: Jiménez-Ortigosa et al. Cryo-Electron Tomography of Candida glabrata Plasma Membrane Proteins. J. Fungi 2021, 7 , 120.

Author

Jiménez-Ortigosa, Cristina, Jiang, Jennifer, Chen, Muyuan, Kuang, Xuyuan, Healey, Kelley R., Castellano, Paul, Boparai, Nikpreet, Ludtke, Steven J., Perlin, David S., and Dai, Wei

Subjects

MEMBRANE proteins, BLOOD proteins, CELL membranes, FUNGAL cell walls, MOLECULAR biology, MOLECULAR structure, ANTIFUNGAL agents

Abstract

This correction notice provides updates to an article titled "Cryo-Electron Tomography of Candida glabrata Plasma Membrane Proteins" published in the Journal of Fungi. The corrections aim to align the content with the updated findings and annotations. The study used cryo-electron tomography to examine the structure and distribution of membrane proteins in Candida glabrata plasma membranes, with a focus on the fungal H+-ATPase, Pma1. The study demonstrates the potential of cryo-electron tomography in advancing our understanding of cellular biology. Another document provides corrections to a scientific article titled "Structural Analysis of Fungal β-(1,3)-Glucan Synthase Complexes Reveals the Mechanism of Substrate Recognition and Catalysis." These corrections do not impact the scientific conclusions of the article and include changes to sentences, figures, titles, and references. The document also includes a figure illustrating the structural analysis of ring-like structures as Pma1 hexamers. [Extracted from the article]

Published

2024

3. Molecular and Clinical Epidemiology of SARS-CoV-2 Infection among Vaccinated and Unvaccinated Individuals in a Large Healthcare Organization from New Jersey.

Author

Mediavilla, José R., Lozy, Tara, Lee, Annie, Kim, Justine, Kan, Veronica W., Titova, Elizabeth, Amin, Ashish, Zody, Michael C., Corvelo, André, Oschwald, Dayna M., Baldwin, Amy, Fennessey, Samantha, Zuckerman, Jerry M., Kirn, Thomas, Chen, Liang, Zhao, Yanan, Chow, Kar Fai, Maniatis, Tom, Perlin, David S., and Kreiswirth, Barry N.

Subjects

COVID-19, CLINICAL epidemiology, MOLECULAR epidemiology, VACCINATION status, VACCINATION, BREAKTHROUGH infections

Abstract

New Jersey was among the first states impacted by the COVID-19 pandemic, with one of the highest overall death rates in the nation. Nevertheless, relatively few reports have been published focusing specifically on New Jersey. Here we report on molecular, clinical, and epidemiologic observations, from the largest healthcare network in the state, in a cohort of vaccinated and unvaccinated individuals with laboratory-confirmed SARS-CoV-2 infection. We conducted molecular surveillance of SARS-CoV-2-positive nasopharyngeal swabs collected in nine hospitals from December 2020 through June 2022, using both whole genome sequencing (WGS) and a real-time RT-PCR screening assay targeting spike protein mutations found in variants of concern (VOCs) within our region. De-identified clinical data were obtained retrospectively, including demographics, COVID-19 vaccination status, ICU admission, ventilator support, mortality, and medical history. Statistical analyses were performed to identify associations between SARS-CoV-2 variants, vaccination status, clinical outcomes, and medical risk factors. A total of 5007 SARS-CoV-2-positive nasopharyngeal swabs were successfully screened and/or sequenced. Variant screening identified three predominant VOCs, including Alpha (n = 714), Delta (n = 1877), and Omicron (n = 1802). Omicron isolates were further sub-typed as BA.1 (n = 899), BA.2 (n = 853), or BA.4/BA.5 (n = 50); the remaining 614 isolates were classified as "Other". Approximately 31.5% (1577/5007) of the samples were associated with vaccine breakthrough infections, which increased in frequency following the emergence of Delta and Omicron. Severe clinical outcomes included ICU admission (336/5007 = 6.7%), ventilator support (236/5007 = 4.7%), and mortality (430/5007 = 8.6%), with increasing age being the most significant contributor to each (p < 0.001). Unvaccinated individuals accounted for 79.7% (268/336) of ICU admissions, 78.3% (185/236) of ventilator cases, and 74.4% (320/430) of deaths. Highly significant (p < 0.001) increases in mortality were observed in individuals with cardiovascular disease, hypertension, cancer, diabetes, and hyperlipidemia, but not with obesity, thyroid disease, or respiratory disease. Significant differences (p < 0.001) in clinical outcomes were also noted between SARS-CoV-2 variants, including Delta, Omicron BA.1, and Omicron BA.2. Vaccination was associated with significantly improved clinical outcomes in our study, despite an increase in breakthrough infections associated with waning immunity, greater antigenic variability, or both. Underlying comorbidities contributed significantly to mortality in both vaccinated and unvaccinated individuals, with increasing risk based on the total number of comorbidities. Real-time RT-PCR-based screening facilitated timely identification of predominant variants using a minimal number of spike protein mutations, with faster turnaround time and reduced cost compared to WGS. Continued evolution of SARS-CoV-2 variants will likely require ongoing surveillance for new VOCs, with real-time assessment of clinical impact. [ABSTRACT FROM AUTHOR]

Published

2023

4. Susceptibility of Fat Tissue to SARS-CoV-2 Infection in Female hACE2 Mouse Model.

Author

Thangavel, Hariprasad, Dhanyalayam, Dhanya, Lizardo, Kezia, Oswal, Neelam, Dolgov, Enriko, Perlin, David S., and Nagajyothi, Jyothi F.

Subjects

SARS-CoV-2, ADIPOSE tissue physiology, LUNGS, ADIPOSE tissues, FAT cells, COVID-19, LABORATORY mice

Abstract

The coronavirus disease (COVID-19) is a highly contagious viral illness caused by severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2). COVID-19 has had a catastrophic effect globally causing millions of deaths worldwide and causing long-lasting health complications in COVID-19 survivors. Recent studies including ours have highlighted that adipose tissue can act as a reservoir where SARS-CoV-2 can persist and cause long-term health problems. Here, we evaluated the effect of SARS-CoV-2 infection on adipose tissue physiology and the pathogenesis of fat loss in a murine COVID-19 model using humanized angiotensin-converting enzyme 2 (hACE2) mice. Since epidemiological studies reported a higher mortality rate of COVID-19 in males than in females, we examined hACE2 mice of both sexes and performed a comparative analysis. Our study revealed for the first time that: (a) viral loads in adipose tissue and the lungs differ between males and females in hACE2 mice; (b) an inverse relationship exists between the viral loads in the lungs and adipose tissue, and it differs between males and females; and (c) CoV-2 infection alters immune signaling and cell death signaling differently in SARS-CoV-2 infected male and female mice. Overall, our data suggest that adipose tissue and loss of fat cells could play important roles in determining susceptibility to CoV-2 infection in a sex-dependent manner. [ABSTRACT FROM AUTHOR]

Published

2023

5. COVID-19 Associated Pulmonary Aspergillosis (CAPA)-From Immunology to Treatment

Author

Arastehfar, Amir, Carvalho, Agostinho, van de Veerdonk, Frank L., Jenks, Jeffrey D., Koehler, Philipp, Krause, Robert, Cornely, Oliver A., Perlin, David S., Lass-Floerl, Cornelia, Hoenigl, Martin, Arastehfar, Amir, Carvalho, Agostinho, van de Veerdonk, Frank L., Jenks, Jeffrey D., Koehler, Philipp, Krause, Robert, Cornely, Oliver A., Perlin, David S., Lass-Floerl, Cornelia, and Hoenigl, Martin

Abstract

Like severe influenza, coronavirus disease-19 (COVID-19) resulting in acute respiratory distress syndrome (ARDS) has emerged as an important disease that predisposes patients to secondary pulmonary aspergillosis, with 35 cases of COVID-19 associated pulmonary aspergillosis (CAPA) published until June 2020. The release of danger-associated molecular patterns during severe COVID-19 results in both pulmonary epithelial damage and inflammatory disease, which are predisposing risk factors for pulmonary aspergillosis. Moreover, collateral effects of host recognition pathways required for the activation of antiviral immunity may, paradoxically, contribute to a highly permissive inflammatory environment that favors fungal pathogenesis. Diagnosis of CAPA remains challenging, mainly because bronchoalveolar lavage fluid galactomannan testing and culture, which represent the most sensitive diagnostic tests for aspergillosis in the ICU, are hindered by the fact that bronchoscopies are rarely performed in COVID-19 patients due to the risk of disease transmission. Similarly, autopsies are rarely performed, which may result in an underestimation of the prevalence of CAPA. Finally, the treatment of CAPA is complicated by drug-drug interactions associated with broad spectrum azoles, renal tropism and damage caused by SARS-CoV-2, which may challenge the use of liposomal amphotericin B, as well as the emergence of azole-resistance. This clinical reality creates an urgency for new antifungal drugs currently in advanced clinical development with more promising pharmacokinetic and pharmacodynamic profiles.

Published

2020

6. The quiet and underappreciated rise of drug-resistant invasive fungal pathogens

Author

Barcelona Supercomputing Center, Arastehfar, Amir, Lass-Flörl, Cornelia, Garcia-Rubio, Rocio, Daneshnia, Farnaz, Ilkit, Macit, Boekhout, Teun, Gabaldon, Toni, Perlin, David S., Barcelona Supercomputing Center, Arastehfar, Amir, Lass-Flörl, Cornelia, Garcia-Rubio, Rocio, Daneshnia, Farnaz, Ilkit, Macit, Boekhout, Teun, Gabaldon, Toni, and Perlin, David S.

Abstract

Human fungal pathogens are attributable to a significant economic burden and mortality worldwide. Antifungal treatments, although limited in number, play a pivotal role in decreasing mortality and morbidities posed by invasive fungal infections (IFIs). However, the recent emergence of multidrug-resistant Candida auris and Candida glabrata and acquiring invasive infections due to azole-resistant C. parapsilosis, C. tropicalis, and Aspergillus spp. in azole-naïve patients pose a serious health threat considering the limited number of systemic antifungals available to treat IFIs. Although advancing for major fungal pathogens, the understanding of fungal attributes contributing to antifungal resistance is just emerging for several clinically important MDR fungal pathogens. Further complicating the matter are the distinct differences in antifungal resistance mechanisms among various fungal species in which one or more mechanisms may contribute to the resistance phenotype. In this review, we attempt to summarize the burden of antifungal resistance for selected non-albicansCandida and clinically important Aspergillus species together with their phylogenetic placement on the tree of life. Moreover, we highlight the different molecular mechanisms between antifungal tolerance and resistance, and comprehensively discuss the molecular mechanisms of antifungal resistance in a species level., D.S.P. was funded by grant AI109025 from the National Institutes of Health, as well as from Astellas for the Perlin lab’s Reference Center for Antifungal Drug Resistance., Peer Reviewed, Postprint (published version)

Published

2020

7. Antifungal Drug Susceptibility and Genetic Characterization of Fungi Recovered from COVID-19 Patients.

Author

Kordalewska, Milena, Guerrero, Kevin D., Garcia-Rubio, Rocio, Jiménez-Ortigosa, Cristina, Mediavilla, José R., Cunningham, Marcus H., Hollis, Frank, Tao Hong, Chow, Kar Fai, Kreiswirth, Barry N., and Perlin, David S.

Subjects

ANTIFUNGAL agents, COVID-19 pandemic, DISEASE susceptibility, ASPERGILLUS fumigatus, KARYOTYPES, IMMUNOSUPPRESSION

Abstract

Fungal infections are common complications of respiratory viral infections and are associated with the increased need for intensive care and elevated mortality. Data regarding microbiological and molecular characteristics of such infections in COVID-19 patients are scarce. Here, we performed a comprehensive analysis, including species identification, antifungal susceptibility testing, molecular resistance determinants analysis, typing, and retrospective clinical data review, of fungal isolates recovered from 19 COVID-19 patients, who were hospitalized at the Hackensack University Medical Center (HUMC) in Hackensack, New Jersey, USA, in the initial phase of the pandemic from April–May 2020. In total, 17 Candida albicans, two C. parapsilosis, and two Aspergillus fumigatus were analyzed. All Candida spp. isolates were susceptible to micafungin and azole drugs (fluconazole, voriconazole, posaconazole, itraconazole, isavuconazole). A. fumigatus isolates were susceptible to micafungin and all triazole drugs except fluconazole (intrinsic resistance). Multilocus sequence typing (MLST) of C. albicans isolates revealed 15 different sequence types (STs), which clustered below the clade-defining limit of p-distance < 0.04. Pulsed-field gel electrophoresis (PFGE) karyotyping revealed no chromosomal rearrangements in these isolates. A. fumigatus isolates were of different, non-related genotypes. We speculate that virus- and drug-induced immunosuppression (94.7% of the patients received corticosteroids), together with prolonged hospital stay (median duration of 29 days) and mechanical ventilation (median duration of 24 days) likely increased the susceptibility to secondary respiratory and bloodstream infections in the studied patient population. The presence of fungi in blood or respiratory tract fluid was a prognosticator for poor clinical outcome, which presented as an 89.5% 30-day mortality in our patient cohort. [ABSTRACT FROM AUTHOR]

Published

2021

8. Candidemia among Iranian Patients with Severe COVID-19 Admitted to ICUs .

Author

Arastehfar, Amir, Shaban, Tahmineh, Zarrinfar, Hossein, Roudbary, Maryam, Ghazanfari, Mona, Hedayati, Mohammad-Taghi, Sedaghat, Alireza, Ilkit, Macit, Najafzadeh, Mohammad Javad, and Perlin, David S.

Subjects

CANDIDEMIA, COVID-19 pandemic, INTENSIVE care units, ANTIFUNGAL agents, MULTIDRUG resistance

Abstract

As a novel risk factor, COVID-19 has led to an increase in the incidence of candidemia and an elevated mortality rate. Despite being of clinical importance, there is a lack of data regarding COVID-19-associated candidemia (CAC) among Iranian patients. Therefore, in this retrospective study, we assessed CAC epidemiology in the intensive care units (ICUs) of two COVID-19 centers in Mashhad, Iran, from early November 2020 to late January 2021. Yeast isolates from patients’ blood were identified by 21-plex polymerase chain reaction (PCR) and sequencing, then subjected to antifungal susceptibility testing according to the CLSI M27-A3 protocol. Among 1988 patients with COVID-19 admitted to ICUs, seven had fungemia (7/1988; 0.03%), among whom six had CAC. The mortality of the limited CAC cases was high and greatly exceeded that of patients with COVID-19 but without candidemia (100% (6/6) vs. 22.7% (452/1988)). In total, nine yeast isolates were collected from patients with fungemia: five Candida albicans, three C. glabrata, and one Rhodotorula mucilaginosa. Half of the patients infected with C. albicans (2/4) were refractory to both azoles and echinocandins. The high mortality of patients with CAC, despite antifungal therapy, reflects the severity of the disease in these patients and underscores the importance of rapid diagnosis and timely initiation of antifungal treatment. [ABSTRACT FROM AUTHOR]

Published

2021

9. Environmental Clonal Spread of Azole-Resistant Candida parapsilosis with Erg11-Y132F Mutation Causing a Large Candidemia Outbreak in a Brazilian Cancer Referral Center.

Author

Thomaz, Danilo Y., de Almeida Jr., João N., Sejas, Odeli N. E., Del Negro, Gilda M. B., Carvalho, Gabrielle O. M. H., Gimenes, Viviane M. F., de Souza, Maria Emilia B., Arastehfar, Amir, Camargo, Carlos H., Motta, Adriana L., Rossi, Flávia, Perlin, David S., Freire, Maristela P., Abdala, Edson, and Benard, Gil

Subjects

CLONE cells, AZOLES, CANDIDA, MICROBIAL sensitivity tests, GENOTYPES

Abstract

Clonal outbreaks due to azole-resistant Candida parapsilosis (ARCP) isolates have been reported in numerous studies, but the environmental niche of such isolates has yet to be defined. Herein, we aimed to identify the environmental niche of ARCP isolates causing unremitting clonal outbreaks in an adult ICU from a Brazilian cancer referral center. C. parapsilosis sensu stricto isolates recovered from blood cultures, pericatheter skins, healthcare workers (HCW), and nosocomial surfaces were genotyped by multilocus microsatellite typing (MLMT). Antifungal susceptibility testing was performed by the EUCAST (European Committee for Antimicrobial Susceptibility Testing) broth microdilution reference method and ERG11 was sequenced to determine the azole resistance mechanism. Approximately 68% of isolates were fluconazole-resistant (76/112), including pericatheter skins (3/3, 100%), blood cultures (63/70, 90%), nosocomial surfaces (6/11, 54.5%), and HCW’s hands (4/28, 14.2%). MLMT revealed five clusters: the major cluster contained 88.2% of ARCP isolates (67/76) collected from blood (57/70), bed (2/2), pericatheter skin (2/3), from carts (3/7), and HCW’s hands (3/27). ARCP isolates were associated with a higher 30 day crude mortality rate (63.8%) than non-ARCP ones (20%, p = 0.008), and resisted two environmental decontamination attempts using quaternary ammonium. This study for the first time identified ARCP isolates harboring the Erg11-Y132F mutation from nosocomial surfaces and HCW’s hands, which were genetically identical to ARCP blood isolates. Therefore, it is likely that persisting clonal outbreak due to ARCP isolates was fueled by environmental sources. The resistance of Y132F ARCP isolates to disinfectants, and their potential association with a high mortality rate, warrant vigilant source control using effective environmental decontamination. [ABSTRACT FROM AUTHOR]

Published

2021

10. Preliminary Structural Elucidation of β-(1,3)-glucan Synthase from Candida glabrata Using Cryo-Electron Tomography.

Author

Jiménez-Ortigosa, Cristina, Jiang, Jennifer, Chen, Muyuan, Xuyuan Kuang, Healey, Kelley R., Castellano, Paul, Boparai, Nikpreet, Ludtke, Steven J., Perlin, David S., and Dai, Wei

Subjects

GLUCAN synthase, CANDIDA glabrata, ECHINOCANDINS, TOMOGRAPHY, DRUG resistance in microorganisms

Abstract

Echinocandin drugs have become a front-line therapy against Candida spp. infections due to the increased incidence of infections by species with elevated azole resistance, such as Candida glabrata. Echinocandins target the fungal-specific enzyme ß-(1,3)-glucan synthase (GS), which is located in the plasma membrane and catalyzes the biosynthesis of ß-(1,3)-glucan, the major component of the fungal cell wall. However, resistance to echinocandin drugs, which results from hotspot mutations in the catalytic subunits of GS, is an emerging problem. Little structural information on GS is currently available because, thus far, the GS enzyme complex has resisted homogenous purification, limiting our understanding of GS as a major biosynthetic apparatus for cell wall assembly and an important therapeutic drug target. Here, by applying cryo-electron tomography (cryo-ET) and subtomogram analysis, we provide a preliminary structure of the putative C. glabrata GS complex as clusters of hexamers, each subunit with two notable cytosolic domains, the N-terminal and central catalytic domains. This study lays the foundation for structural and functional studies of this elusive protein complex, which will provide insight into fungal cell wall synthesis and the development of more efficacious antifungal therapeutics. [ABSTRACT FROM AUTHOR]

Published

2021

11. Review of the Novel Echinocandin Antifungal Rezafungin: Animal Studies and Clinical Data.

Author

Yanan Zhao and Perlin, David S.

Subjects

*ECHINOCANDINS, *ANTIFUNGAL agents, *CLINICAL trials, *MYCOSES, *PHARMACOKINETICS

Abstract

Rezafungin is a novel echinocandin drug being developed as a first-line option for treatment and prevention of invasive fungal infections. As a result of a structural modification in its parent molecule anidulafungin, rezafungin has acquired unique chemical stability conferring prolonged pharmacokinetics, as well as an administration advantage in the clinical setting compared to other drugs in the same class. Rezafungin displays potent in vitro activity against a wide spectrum of fungal pathogens, which is reflected in robust in vivo efficacy and/or pharmacodynamic studies using various animal models as well as in promising clinical trials data. This review describes in vivo characterization of rezafungin using animal models, current status of clinical development and key findings from these studies. [ABSTRACT FROM AUTHOR]

Published

2020

12. Efficacy of LAMB against Emerging Azole- and Multidrug-Resistant Candida parapsilosis Isolates in the Galleria mellonella Model.

Author

Binder, Ulrike, Arastehfar, Amir, Schnegg, Lisa, Hörtnagl, Caroline, Hilmioğlu-Polat, Suleyha, Perlin, David S., and Lass-Flörl, Cornelia

Subjects

AZOLES, CANDIDEMIA, FLUCONAZOLE, AMPHOTERICIN B, LIPOSOMES

Abstract

While being the third leading cause of candidemia worldwide, numerous studies have shown severe clonal outbreaks due to fluconazole-resistant (FLCR) Candida parapsilosis isolates associated with fluconazole therapeutic failure (FTF) with enhanced mortality. More recently, multidrug resistant (MDR) C. parapsilosis blood isolates have also been identified that are resistant to both azole and echinocandin drugs. Amphotericin B (AMB) resistance is rarely reported among C. parapsilosis isolates and proper management of bloodstream infections due to FLZR and MDR isolates requires prompt action at the time of outbreak. Therefore, using a well-established Galleria mellonella model, we assessed whether (a) laboratory-based findings on azole or echinocandin (micafungin) resistance in C. parapsilosis lead to therapeutic failure, (b) LAMB could serve as an efficient salvage treatment option, and (c) distinct mutations in ERG11 impact mortality. Our in vivo data confirm fluconazole inefficacy against FLCR C. parapsilosis isolates carrying Y132F, Y132F + K143R, Y132F + G307A, and G307A + G458S in Erg11p, while LAMB proved to be an e_cacious accessible option against both FLCR and MDR C. parapsilosis isolates. Moreover, positive correlation of in vitro and in vivo data further highlights the utility of G. melonella as a reliable model to investigate azole and polyene drug efficacy. [ABSTRACT FROM AUTHOR]

Published

2020

13. COVID-19-Associated Candidiasis (CAC): An Underestimated Complication in the Absence of Immunological Predispositions?

Author

Arastehfar, Amir, Carvalho, Agostinho, M. Hong Nguyen, Taghi Hedayati, Mohammad, Netea, Mihai G., Perlin, David S., and Hoenigl, Martin

Subjects

COVID-19 pandemic, CANDIDIASIS, IMMUNOLOGY, ADULT respiratory distress syndrome, MYCOSES

Abstract

The recent global pandemic of COVID-19 has predisposed a relatively high number of patients to acute respiratory distress syndrome (ARDS), which carries a risk of developing super-infections. Candida species are major constituents of the human mycobiome and the main cause of invasive fungal infections, with a high mortality rate. Invasive yeast infections (IYIs) are increasingly recognized as s complication of severe COVID-19. Despite the marked immune dysregulation in COVID-19, no prominent defects have been reported in immune cells that are critically required for immunity to Candida. This suggests that relevant clinical factors, including prolonged ICU stays, central venous catheters, and broad-spectrum antibiotic use, may be key factors causing COVID-19 patients to develop IYIs. Although data on the comparative performance of diagnostic tools are often lacking in COVID-19 patients, a combination of serological and molecular techniques may present a promising option for the identification of IYIs. Clinical awareness and screening are needed, as IYIs are difficult to diagnose, particularly in the setting of severe COVID-19. Echinocandins and azoles are the primary antifungal used to treat IYIs, yet the therapeutic failures exerted by multidrug-resistant Candida spp. such as C. auris and C. glabrata call for the development of new antifungal drugs with novel mechanisms of action. [ABSTRACT FROM AUTHOR]

Published

2020

14. Differential Regulation of Echinocandin Targets Fks1 and Fks2 in Candida glabrata by the Post-Transcriptional Regulator Ssd1.

Author

Healey, Kelley R., Paderu, Padmaja, Xin Hou, Jimenez Ortigosa, Cristina, Bagley, Nicole, Patel, Biren, Yanan Zhao, and Perlin, David S.

Subjects

ECHINOCANDINS, CANDIDA glabrata, DRUG resistance, PROTEINS, GENE expression

Abstract

Invasive infections caused by the opportunistic pathogen Candida glabrata are treated with echinocandin antifungals that target β-1,3-glucan synthase, an enzyme critical for fungal cell wall biosynthesis. Echinocandin resistance develops upon mutation of genes (FKS1 or FKS2) that encode the glucan synthase catalytic subunits. We have analyzed cellular factors that influence echinocandin susceptibility and here describe effects of the post-transcriptional regulator Ssd1, which in S. cerevisiae, can bind cell wall related gene transcripts. The SSD1 homolog in C. glabrata was disrupted in isogenic wild type and equivalent FKS1 and FKS2 mutant strains that demonstrate echinocandin resistance (MICs ˃ 0.5 µg/mL). A reversal of resistance (8- to 128-fold decrease in MICs) was observed in FKS1 mutants, but not in FKS2 mutants, following SSD1 deletion. Additionally, this phenotype was complemented upon expression of SSD1 from plasmid (pSSD1). All SSD1 disruptants displayed susceptibility to the calcineurin inhibitor FK506, similar to fks1∆. Decreases in relative gene expression ratios of FKS1 to FKS2 (2.6- to 4.5-fold) and in protein ratios of Fks1 to Fks2 (2.7- and 8.4-fold) were observed in FKS mutants upon SSD1 disruption. Additionally, a complementary increase in protein ratio was observed in the pSSD1 expressing strain. Overall, we describe a cellular factor that influences Fks1-specific mediated resistance and demonstrates further differential regulation of FKS1 and FKS2 in C. glabrata. [ABSTRACT FROM AUTHOR]

Published

2020

15. The Quiet and Underappreciated Rise of Drug-Resistant Invasive Fungal Pathogens.

Author

Arastehfar, Amir, Lass-Flörl, Cornelia, Garcia-Rubio, Rocio, Daneshnia, Farnaz, Ilkit, Macit, Boekhout, Teun, Gabaldon, Toni, and Perlin, David S.

Subjects

ANTIFUNGAL agents, MORTALITY, MYCOSES, CANDIDA, TREE of life

Abstract

Human fungal pathogens are attributable to a significant economic burden and mortality worldwide. Antifungal treatments, although limited in number, play a pivotal role in decreasing mortality and morbidities posed by invasive fungal infections (IFIs). However, the recent emergence of multidrug-resistant Candida auris and Candida glabrata and acquiring invasive infections due to azole-resistant C. parapsilosis, C. tropicalis, and Aspergillus spp. in azole-naïve patients pose a serious health threat considering the limited number of systemic antifungals available to treat IFIs. Although advancing for major fungal pathogens, the understanding of fungal attributes contributing to antifungal resistance is just emerging for several clinically important MDR fungal pathogens. Further complicating the matter are the distinct differences in antifungal resistance mechanisms among various fungal species in which one or more mechanisms may contribute to the resistance phenotype. In this review, we attempt to summarize the burden of antifungal resistance for selected non-albicans Candida and clinically important Aspergillus species together with their phylogenetic placement on the tree of life. Moreover, we highlight the different molecular mechanisms between antifungal tolerance and resistance, and comprehensively discuss the molecular mechanisms of antifungal resistance in a species level. [ABSTRACT FROM AUTHOR]

Published

2020

16. Breakthrough Bloodstream Infections Caused by Echinocandin-Resistant Candida tropicalis: An Emerging Threat to Immunocompromised Patients with Hematological Malignancies.

Author

Sfeir, Maroun M., Jiménez-Ortigosa, Cristina, Gamaletsou, Maria N., Schuetz, Audrey N., Soave, Rosemary, Van Besien, Koen, Small, Catherine B., Perlin, David S., and Walsh, Thomas J.

Subjects

CANDIDA tropicalis, HEMATOLOGY, ECHINOCANDINS, NUCLEOTIDE sequencing, TRIAZOLES, BREAKTHROUGH infections

Abstract

Background. Candida tropicalis is a virulent fungal pathogen for which echinocandins are the primary therapy. Emergence of resistance to echinocandins of C. tropicalis carries potentially ominous therapeutic implications. Methods. We describe herein two patients with breakthrough C. tropicalis fungemia during echinocandin therapy, characterize their molecular mechanism of resistance, and systematically review 13 previously reported cases of echinocandin-resistant C. tropicalis bloodstream infections (BSIs) and other diseases. Results. Among these 15 patients with echinocandin-resistant C. tropicalis infections, the median age was 61 years (ages 28-84 years) and 13 (86%) were immunocompromised. Thirteen (86%) of all patients had a history of pervious or concurrent exposure to echinocandins. Isolates of C. tropicalis from 11 cases, including the two index cases, underwent DNA sequencing of the FKS1 gene for mutations known to confer echinocandin resistance. The amino acid substitution Ser654Pro was shown in four cases, while other FKS1 mutations encoded Ser80S/Pro, Phe641Leu, Phe641Ser, Ser80S/Pro substitutions. These mutational events were not associated with collateral increases in minimum inhibitory concentrations to antifungal triazoles and amphotericin B. Overall mortality in patients with echinocandin-resistant C. tropicalis infections was 40%. Among those six patients who died, two received monotherapy with voriconazole, one was treated with fluconazole, one remained on caspofungin, and two were switched to liposomal amphotericin B. Nine patients (60%) survived after being treated with an antifungal agent other than an echinocandin. Conclusions. Emergence of resistance to echinocandins by C. tropicalis, occurs during antifungal therapy, is associated with high mortality, is mediated by a diverse range of FKS1 mutations, retains in vitro susceptibility to triazoles and amphotericin B, and constitutes an emerging threat to patients with hematological malignancies. [ABSTRACT FROM AUTHOR]

Published

2020

17. Molecular Diagnostics in the Times of Surveillance for Candida auris.

Author

Kordalewska, Milena and Perlin, David S.

Subjects

*CANDIDA, *ECHINOCANDINS, *SKIN physiology, *GENE amplification, *INFECTION prevention, *HEALTH facilities

Abstract

Recently, global health professionals have been significantly challenged by the emergence of Candida auris and its propensity to colonize human skin, persist in the healthcare environment, and cause healthcare-associated outbreaks. Additionally, C. auris isolates are often characterized by elevated minimal inhibitory concentration (MIC) values for antifungal drugs. Thus, rapid detection and accurate identification of C. auris together with an assessment of potential antifungal drug resistance has become essential for effective patient management, and infection prevention and control in healthcare facilities. Surprisingly, almost all of the commonly available diagnostic tools rely on recovery (growth) of yeast colonies from collected samples, which delays the diagnostic result by several days or longer. To circumvent these issues, molecular-based DNA amplification assays have been developed to identify C. auris DNA directly from patient samples. Moreover, allele discriminating detection probes can be used to rapidly assess validated mechanisms of echinocandin and azole resistance. [ABSTRACT FROM AUTHOR]

Published

2019

18. Drug-Resistant Fungi: An Emerging Challenge Threatening Our Limited Antifungal Armamentarium.

Author

Arastehfar, Amir, Gabaldón, Toni, Garcia-Rubio, Rocio, Jenks, Jeffrey D., Hoenigl, Martin, Salzer, Helmut J. F., Ilkit, Macit, Lass-Flörl, Cornelia, and Perlin, David S.

Subjects

DRUG monitoring, ENTOMOPATHOGENIC fungi, ANTIFUNGAL agents, FUNGI, CROPS, MYCOSES

Abstract

The high clinical mortality and economic burden posed by invasive fungal infections (IFIs), along with significant agricultural crop loss caused by various fungal species, has resulted in the widespread use of antifungal agents. Selective drug pressure, fungal attributes, and host- and drug-related factors have counteracted the efficacy of the limited systemic antifungal drugs and changed the epidemiological landscape of IFIs. Species belonging to Candida, Aspergillus, Cryptococcus, and Pneumocystis are among the fungal pathogens showing notable rates of antifungal resistance. Drug-resistant fungi from the environment are increasingly identified in clinical settings. Furthermore, we have a limited understanding of drug class-specific resistance mechanisms in emerging Candida species. The establishment of antifungal stewardship programs in both clinical and agricultural fields and the inclusion of species identification, antifungal susceptibility testing, and therapeutic drug monitoring practices in the clinic can minimize the emergence of drug-resistant fungi. New antifungal drugs featuring promising therapeutic profiles have great promise to treat drug-resistant fungi in the clinical setting. Mitigating antifungal tolerance, a prelude to the emergence of resistance, also requires the development of effective and fungal-specific adjuvants to be used in combination with systemic antifungals. [ABSTRACT FROM AUTHOR]

Published

2020

19. Novel Pan-Coronavirus 3CL Protease Inhibitor MK-7845: Biological and Pharmacological Profiling.

Author

Alvarez N, Adam GC, Howe JA, Sharma V, Zimmerman MD, Dolgov E, Rasheed R, Nizar F, Sahay K, Nelson AM, Park S, Zhou X, Burlein C, Fay JF, Iwamoto DV, Bahnck-Teets CM, Getty KL, Lin Goh S, Salhab I, Smith K, Boyce CW, Cabalu TD, Murgolo N, Fox NG, Mayhood TW, Shurtleff VW, Layton ME, Parish CA, McCauley JA, Olsen DB, and Perlin DS

Subjects

Animals, Mice, Humans, Coronavirus 3C Proteases antagonists & inhibitors, Middle East Respiratory Syndrome Coronavirus drug effects, Middle East Respiratory Syndrome Coronavirus genetics, COVID-19 Drug Treatment, Protease Inhibitors pharmacology, COVID-19 virology, Coronavirus Infections drug therapy, Coronavirus Infections virology, SARS-CoV-2 drug effects, Antiviral Agents pharmacology

Abstract

Severe acute respiratory syndrome coronavirus type 2 (SARS-CoV-2) continues to be a global threat due to its ability to evolve and generate new subvariants, leading to new waves of infection. Additionally, other coronaviruses like Middle East respiratory syndrome coronavirus (MERS-CoV, formerly known as hCoV-EMC), which first emerged in 2012, persist and continue to present a threat of severe illness to humans. The continued identification of novel coronaviruses, coupled with the potential for genetic recombination between different strains, raises the possibility of new coronavirus clades of global concern emerging. As a result, there is a pressing need for pan-CoV therapeutic drugs and vaccines. After the extensive optimization of an HCV protease inhibitor screening hit, a novel 3CLPro inhibitor (MK-7845) was discovered and subsequently profiled. MK-7845 exhibited nanomolar in vitro potency with broad spectrum activity against a panel of clinical SARS-CoV-2 subvariants and MERS-CoV. Furthermore, when administered orally, MK-7845 demonstrated a notable reduction in viral burdens by >6 log orders in the lungs of transgenic mice infected with SARS-CoV-2 (K18-hACE2 mice) and MERS-CoV (K18-hDDP4 mice).

Published

2024