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1.
Anti-amoebic potential of azole scaffolds and nanoparticles against pathogenic Acanthamoeba.
Walvekar, S, Anwar, A, Anwar, A, Sridewi, N, Khalid, M, Yow, YY, Khan, NA
Acta tropica. 2020;:105618
Abstract
Acanthamoeba spp. are free living amoeba (FLA) which are widely distributed in nature. They are opportunistic parasites and can cause severe infections to the eye, skin and central nervous system. The advances in drug discovery and modifications in the chemotherapeutic agents have shown little improvement in morbidity and mortality rates associated with Acanthamoeba infections. The mechanism-based process of drug discovery depends on the molecular drug targets present in the signaling pathways in the genome. Synthetic libraries provide a platform for broad spectrum of activities due to their desired structural modifications. Azoles, originally a class of synthetic anti-fungal drugs, disrupt the fungal cell membrane by inhibiting the biosynthesis of ergosterol through the inhibition of cytochrome P450 dependent 14α-lanosterol, a key step of the sterol pathway. Acanthamoeba and fungi share the presence of similar sterol intermediate, as ergosterol is also the major end-product in the sterol biosynthesis in Acanthamoeba. Sterols present in the eukaryotic cell membrane are one of the most essential lipids and exhibit important structural and signaling functions. Therefore, in this review we highlight the importance of specific targeting of ergosterol present in Acanthamoebic membrane by azole compounds for amoebicidal activity. Previously, azoles have also been repurposed to report antimicrobial, antiparasitic and antibacterial properties. Moreover, by loading the azoles into nanoparticles through advanced techniques in nanotechnology, such as physical encapsulation, adsorption, or chemical conjugation, the pharmacokinetics and therapeutic index of the drugs can be significantly improved. The current review proposes an important strategy to target Acanthamoeba using synthetic libraries of azoles and their conjugated nanoparticles for the first time.
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2.
Mechanisms of triazole resistance in Aspergillus fumigatus.
Nywening, AV, Rybak, JM, Rogers, PD, Fortwendel, JR
Environmental microbiology. 2020;(12):4934-4952
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Abstract
The ubiquitous fungal pathogen Aspergillus fumigatus is the primary cause of opportunistic mould infections in humans. Aspergilli disseminate via asexual conidia passively travelling through air currents to germinate within a broad range of environs, wherever suitable nutrients are found. Though the average human inhales hundreds of conidia daily, A. fumigatus invasive infections primarily affect the immunocompromised. At-risk individuals can develop often fatal invasive disease for which therapeutic options are limited. Regrettably, the global insurgence of isolates resistant to the triazoles, the frontline antifungal class used in medicine and agriculture to control A. fumigatus, is complicating the treatment of patients. Triazole antifungal resistance in A. fumigatus has become recognized as a global, yet poorly comprehended, problem. Due to a multitude of factors, the magnitude of resistant infections and their contribution to treatment outcomes are likely underestimated. Current studies suggest that human drug-resistant infections can be either environmentally acquired or de novo host selected during patient therapy. While much concerning development of resistance is yet unknown, recent investigations have revealed assorted underlying mechanisms enabling triazole resistance within individual clinical and environmental isolates. This review will provide an overview of triazole resistance as it is currently understood, as well as highlight some of the prominent biological mechanisms associated with clinical and environmental resistance to triazoles in A. fumigatus.
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Adapting to survive: How Candida overcomes host-imposed constraints during human colonization.
Alves, R, Barata-Antunes, C, Casal, M, Brown, AJP, Van Dijck, P, Paiva, S
PLoS pathogens. 2020;(5):e1008478
Abstract
Successful human colonizers such as Candida pathogens have evolved distinct strategies to survive and proliferate within the human host. These include sophisticated mechanisms to evade immune surveillance and adapt to constantly changing host microenvironments where nutrient limitation, pH fluctuations, oxygen deprivation, changes in temperature, or exposure to oxidative, nitrosative, and cationic stresses may occur. Here, we review the current knowledge and recent findings highlighting the remarkable ability of medically important Candida species to overcome a broad range of host-imposed constraints and how this directly affects their physiology and pathogenicity. We also consider the impact of these adaptation mechanisms on immune recognition, biofilm formation, and antifungal drug resistance, as these pathogens often exploit specific host constraints to establish a successful infection. Recent studies of adaptive responses to physiological niches have improved our understanding of the mechanisms established by fungal pathogens to evade the immune system and colonize the host, which may facilitate the design of innovative diagnostic tests and therapeutic approaches for Candida infections.
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Comprehensive review on Caelsalpinioideae lectins: From purification to biological activities.
Cavada, BS, Pinto-Junior, VR, Osterne, VJS, Oliveira, MV, Lossio, CF, Silva, MTL, Bari, AU, Lima, LD, Souza-Filho, CHD, Nascimento, KS
International journal of biological macromolecules. 2020;:333-348
Abstract
Lectins are a class of proteins with specific and reversible carbohydrate binding properties. Plant lectins constitute the group of these proteins most studied, placing emphasis on the legume family. The Caesalpinioideae subfamily is part of Leguminosae and second only to Papilionoideae with more published works on lectins. Classically, Caesalpinioideae is formed by 171 genera and 2250 species. It presents 13 genera with reports of lectins, featuring the Bauhinia genus with the greatest number of species having purified and characterized lectins. Comparing genera, the lectins in this subfamily do not have similar physicochemical or structural properties. Collectively, however, antibacterial, antiviral, and anticancer activities have been reported, as well as applications as biosensors and biomarkers. This review aims to summarize the available data on purified lectins from species of the Caesalpinioideae subfamily, demonstrating the characteristics of these molecules and the potential for their application in future studies of new lectins, as well as of application in several areas.
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Hormographiella aspergillata: an emerging basidiomycete in the clinical setting? A case report and literature review.
Moniot, M, Lavergne, RA, Morel, T, Guieze, R, Morio, F, Poirier, P, Nourrisson, C
BMC infectious diseases. 2020;(1):945
Abstract
BACKGROUND Filamentous basidiomycetes are mainly considered to be respiratory tract colonizers but the clinical significance of their isolation in a specimen is debatable. Hormographiella aspergillata was first reported as a human pathogen in 1971. We discuss the role of this mold as a pathogen or colonizer and give an update on diagnostic tools and in vitro antifungal susceptibility. CASE PRESENTATION We identified three cases of H. aspergillata with respiratory symptoms in a short period of time. One invasive infection and two colonizations were diagnosed. Culture supernatants showed that H. aspergillata can produce galactomannan and β-D-glucan but not glucuronoxylomannan. For the first time, isavuconazole susceptibility was determined and high minimum inhibitory concentrations (MICs) were found. Liposomal amphotericin B and voriconazole have the lowest MICs. CONCLUSION To date, 22 invasive infections involving H. aspergillata have been reported. On isolation of H. aspergillata, its pathogenic potential in clinical settings can be tricky. Molecular identification and antifungal susceptibility testing are essential considering high resistance against several antifungal therapies.
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Medication association and immunomodulation: An approach in fungal diseases and in particular in the treatment of paracoccidioidomycosis.
Santos, LA, Grisolia, JC, Malaquias, LCC, Paula, FBA, Dias, ALT, Burger, E
Acta tropica. 2020;:105412
Abstract
Fungal infections have been increasing in recent decades, mainly affecting immunocompromised individuals, although certain mycoses, such as paracoccidioidomycosis (PCM), infect immunologically competent individuals. The major problems observed regarding fungal diseases are inadequate diagnosis, prolonged treatment time, the reduced number of drugs available for treatment, in addition to the fact that there are no vaccines for clinical use. Drug combination in order to immunomodulate the immune response is a new strategy used for the treatment of mycoses, since it is difficult to develop new antifungal drugs. The aim of this study is to present and analyze strategies recently suggested for the treatment of fungi of medical interest, in particular for PCM, such as the utilization of combinations of protein fractions or dead microorganisms, as vaccinal antigens, and cellular immunotherapy. We will also propose new therapeutic alternatives, such as lipids, vitamins, synthetic or natural products as well as the use of low intensity LASER therapy (LLLT) to modulate the immune response of the host, enhancing the efficiency of the existing treatments of mycoses of medical interest and in particular of PCM.
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Cushing's disease with pulmonary Cryptococcus neoformans infection in a single center in Beijing, China: A retrospective study and literature review.
Lu, L, Zhao, YY, Yang, HB, Tian, XL, Xu, ZJ, Lu, ZL
Journal of the Formosan Medical Association = Taiwan yi zhi. 2019;(1 Pt 2):285-290
Abstract
BACKGROUND Patients with Cushing's disease (CD) with hypercortisolism have an increased risk of opportunistic infection. However, most CD patients exposed to infections are diagnostic latency, leading to a poor prognosis. METHODS Six patients in our hospital and an additional six patients in the literature were included in this study. Clinical information of CD patients with pulmonary Cryptococcus neoformans are reviewed. RESULTS The average baseline total cortisol and ACTH in serum at 8 am of all the patients was 44.85 μg/dL (normal range 4.0-22.3 μg/dL) and 200.3 pg/mL (normal range 0-46 pg/mL), respectively. Lymphopenia was found in 2 out of 6 patients in our hospital. The pulmonary radiologic findings included nodules (4/12), masses with or without a cavity (5/12), infiltration (5/12), and consolidation (4/12). The diagnosis of C.neoformans was established by lung pathology results (7/12), microorganism culture (3/12), and serum cryptococcal polysaccharide antigen (4/12). Lung lobectomy was performed in two patients who had a nodule in one lung lobe. Antifungal drugs were administered, including amphotericin-B (7/12), fluconazole (4/12), flucytosine (2/12) and liposomal amphotericin (1/12). Additional therapies for CD included trans-sphenoidal pituitary adenoma surgery (9/12), adrenalectomy (1/12) and ketoconazole (2/12). Seven patients survived, and five patients died. CONCLUSION Pulmonary C.neoformans is an uncommon but fatal opportunistic infection in CD patients. Pulmonary nodules or masses should be aggressively investigated to exclude the C.neoformans among CD patients. The infiltration lesions in chest CT scan and lymphopenia are associated with poor prognosis.
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Emerging Mechanisms of Drug Resistance in Candida albicans.
Prasad, R, Nair, R, Banerjee, A
Progress in molecular and subcellular biology. 2019;:135-153
Abstract
Drug resistance mechanisms in the commensal human pathogen Candida albicans are continually evolving. Over time, Candida species have implemented diverse strategies to vanquish the effects of various classes of drugs, thereby emanating as a serious life threat. Apart from the repertoire of well-established strategies, which predominantly comprise permeability constraints, increased drug efflux or compromised drug import, alteration, overexpression of drug targets, and chromosome duplication, C. albicans has evolved novel regulatory mechanisms of drug resistance. For instance, recent evidences point to newer circuitry involving different mediators of the stress-responsive machinery of oxidative, osmotic, thermal, nitrosative, and nutrient limitation, which contribute to the emergence of drug resistance. Contemporary advances in genome-wide studies of transcription factors, for instance, the Zn2Cys6 transcription factors, TAC1 (transcriptional activator of CDR) in Candida albicans, or YRR1 in yeast have made it feasible to dissect their involvement for the elucidation of unexplored regulatory network of drug resistance. The coordination of implementers of the conventional and nonconventional drug resistance strategies provides robustness to this commensal human pathogen. In this review, we shed light not only on the established strategies of antifungal resistance but also discuss emerging cellular circuitry governing drug resistance of this human pathogen.
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Calcium signaling pathway is involved in non-CYP51 azole resistance in Aspergillus fumigatus.
Li, Y, Zhang, Y, Lu, L
Medical mycology. 2019;(Supplement_2):S233-S238
Abstract
The opportunistic fungal pathogen Aspergillus fumigatus, which is one of the primary airborne ascomycete pathogens and allergens worldwide, causes invasive fungal infections, which have high morbidity and mortality rates among immunosuppressed patients. The abuse of azole antifungals results in serious drug resistance in clinical therapy. Thus, a thorough understanding of the azole drug resistance mechanism and screening of antifungal agents with a novel mode of action and new drug targets are required to fight against drug resistance. Current studies suggest that there are three major azole resistance mechanisms in fungal pathogens, including changes of the drug target Cyp51, activation of drug efflux pumps and induction of cellular stress responses. Fungi must adapt to a variety of external environmental stressors to survive. These obstacles include stress to the plasma membrane after azole antifungal treatments, high temperature, pH variation, and oxidative stress. As a filamentous fungus, A. fumigatus has evolved numerous signal-transduction systems to sense and respond to azole stresses to survive and proliferate in harsh environmental conditions. Among these signal-transduction systems, the Ca2+ signaling pathway is one of the most important response systems, which has been verified to be involved in stress adaptation. In this review, we have summarized how the components of the calcium-signaling pathway and their interaction network are involved in azole stress response in A. fumigatus.
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10.
[Update in the diagnostic and therapeutic approach of invasive aspergillosis in adult population].
Rabagliati, R
Revista chilena de infectologia : organo oficial de la Sociedad Chilena de Infectologia. 2018;(5):531-544
Abstract
The invasive fungal disease produced by Aspergillus spp., is the infection by filamentous fungi most frequently reported among immunocompromised individuals and responsible for a very high mortality in this group of patients. In recent years, important advances have been made both from the diagnostic and therapeutic point of view. At present, a series of risk factors associated with its development have been identified, allowing the categorization of patients in high, intermediate and low risk of invasive aspergillosis (IA); and diagnostic criteria have also been established that consider factors of the host, traditional mycological laboratory, biomarkers such as galactomannan and 1→3-β-d-glucan, together with the better understanding and interpretation of the tomographic images that have allowed to reach a consensus on the diagnostic categories. This added to the incorporation of new antifungals and therapeutic strategies in different scenarios, have allowed decreasing the associated mortality. In this review, are updated the epidemiological aspects, the risk factors, the diagnosis, prevention and prophylaxis as well as the therapeutic confrontation, including strategies for the use of empirical, precocious and directed antifungal therapy, as well as the most relevant aspects of the first-choice and alternative antifungals for the IA management.