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Biomolecules Jan 2021The discovery and development of actinomycete secondary metabolites (ASMs) have played pivotal roles in the fields of human medicine and its related biotechnology...
The discovery and development of actinomycete secondary metabolites (ASMs) have played pivotal roles in the fields of human medicine and its related biotechnology sectors over the past several decades [...].
Topics: Actinobacteria; Actinomyces; Biological Products; Biotechnology; Chemistry, Pharmaceutical; Corynebacterium glutamicum; Drug Discovery; Humans; Multigene Family; Streptomyces
PubMed: 33494267
DOI: 10.3390/biom11020134 -
Clinical Microbiology Reviews Apr 2015Actinomyces israelii has long been recognized as a causative agent of actinomycosis. During the past 3 decades, a large number of novel Actinomyces species have been... (Review)
Review
Actinomyces israelii has long been recognized as a causative agent of actinomycosis. During the past 3 decades, a large number of novel Actinomyces species have been described. Their detection and identification in clinical microbiology laboratories and recognition as pathogens in clinical settings can be challenging. With the introduction of advanced molecular methods, knowledge about their clinical relevance is gradually increasing, and the spectrum of diseases associated with Actinomyces and Actinomyces-like organisms is widening accordingly; for example, Actinomyces meyeri, Actinomyces neuii, and Actinomyces turicensis as well as Actinotignum (formerly Actinobaculum) schaalii are emerging as important causes of specific infections at various body sites. In the present review, we have gathered this information to provide a comprehensive and microbiologically consistent overview of the significance of Actinomyces and some closely related taxa in human infections.
Topics: Actinomyces; Actinomycosis; Anti-Bacterial Agents; Bacterial Typing Techniques; Classification; Humans; Microbial Sensitivity Tests
PubMed: 25788515
DOI: 10.1128/CMR.00100-14 -
Journal of Infection and Public Health Apr 2023Pulmonary actinomycosis is a rare infection caused by the bacterial species actinomyces. This paper aims to provide a comprehensive review of pulmonary actinomycosis to... (Review)
Review
Pulmonary actinomycosis is a rare infection caused by the bacterial species actinomyces. This paper aims to provide a comprehensive review of pulmonary actinomycosis to improve awareness and knowledge. The literature was analysed using databases including Pubmed, Medline and Embase from 1974 to 2021. After inclusion and exclusion, a total of 142 papers were reviewed. Pulmonary actinomycosis is a rare disease occurring in approximately 1 per 3,000,000 people annually. Historically, pulmonary actinomycosis was a common infection with high mortality; however, the infection has become rarer since the widespread use of penicillins. Actinomycosis is known as "the great masquerade"; however, it can be differentiated from other diseases with acid-fast negative ray-like bacilli and sulphur granules being pathognomonic. Complications of the infection include empyema, endocarditis, pericarditis, pericardial effusion, and sepsis. The mainstay of treatment is prolonged antibiotic therapy, with adjuvant surgery in severe cases. Future research should focus on multiple areas, including the potential risk secondary to immunosuppression from newer immunotherapies, the utility of newer diagnostic techniques and ongoing surveillance post-therapy.
Topics: Humans; Actinomycosis; Actinomyces; Lung Diseases; Anti-Bacterial Agents; Penicillins
PubMed: 36801629
DOI: 10.1016/j.jiph.2023.02.004 -
Clinical Microbiology and Infection :... Jan 2016The genus Actinotignum contains three species, Actinotignum schaalii (formerly Actinobaculum schaalii), Actinotignum urinale and Actinotignum sanguinis. A. schaalii is... (Review)
Review
The genus Actinotignum contains three species, Actinotignum schaalii (formerly Actinobaculum schaalii), Actinotignum urinale and Actinotignum sanguinis. A. schaalii is the species most frequently involved in human infections, with 172 cases, mostly urinary tract infections (UTIs), reported so far. Invasive infections have also been described. This facultative anaerobic Gram-positive rod is part of the urinary microbiota of healthy patients. It is responsible for UTIs, particularly in elderly men and young children. A. schaalii is an underestimated cause of UTIs because of its fastidious growth on usual media and difficulties associated with its identification using phenotypic methods. Indeed, this slow-growth bacterium requires blood-enriched media and an incubation time of 48 hours under anaerobic or 5% CO2 atmosphere. Furthermore, only matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF) or molecular-based methods allow the accurate identification of this bacteria. MALDI-TOF using Microflex LT with the Biotyper database (Bruker Daltonics, Bremen, Germany) is the most reliable technology for the routine identification of A. schaalii. The identification of this uropathogen is all the more important because it is resistant to trimethoprim/sulfamethoxazole and second-generation quinolones that are widely used in the treatment of UTIs. Antimicrobial therapy using β-lactams prolonged for up to 2 weeks is the most efficient treatment and should be recommended. Microbiologists should assess the presence of A. schaalii in urine using appropriate culture and identification methods in the case of a direct examination that is positive for small coccoid rods, a negative nitrite urinary stick associated with leukocyturia, treatment failure with trimethoprim/sulfamethoxazole or fluoroquinolones, or undocumented, repeated UTIs.
Topics: Actinomycetaceae; Aerobiosis; Anaerobiosis; Anti-Bacterial Agents; Bacteriological Techniques; Drug Resistance, Bacterial; Gram-Positive Bacterial Infections; Humans; Molecular Diagnostic Techniques; Sepsis; Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization; Urinary Tract Infections
PubMed: 26577137
DOI: 10.1016/j.cmi.2015.10.038 -
Precision Clinical Medicine Jun 2023Observational studies have indicated a potential link between gut microbiota and sarcopenia. However, the underlying mechanisms and a causal relationship have not been...
BACKGROUND
Observational studies have indicated a potential link between gut microbiota and sarcopenia. However, the underlying mechanisms and a causal relationship have not been established. Thus, the objective of this study is to examine the possible causal association between gut microbiota and sarcopenia-related traits, including low hand-grip strength and appendicular lean mass (ALM), to shed light on the gut-muscle axis.
METHODS
To investigate the potential impact of gut microbiota on low hand-grip strength and ALM, we utilized a two-sample Mendelian randomization (MR) approach. Summary statistics were obtained from genome-wide association studies of gut microbiota, low hand-grip strength, and ALM. The primary MR analysis employed the random-effects inverse-variance weighted (IVW) method. To assess the robustness, we conducted sensitivity analyses using the MR pleiotropy residual sum and outlier (MR-PRESSO) test to detect and correct for horizontal pleiotropy, as well as the MR-Egger intercept test and leave-one-out analysis.
RESULTS
, and were positively associated with the risk of low hand-grip strength (-values < 0.05). were negatively associated with low hand-grip strength (-values < 0.05). Eight bacterial taxa (, and were associated with a higher risk of ALM (-values < 0.05). group was negatively associated with ALM (-values < 0.05).
CONCLUSION
We found several gut microbiota components causally associated with sarcopenia-related traits. Our findings provided insights into novel strategies for the prevention and treatment of sarcopenia through the regulation of the gut microbiota, contributing to a better understanding of the gut-muscle axis.
PubMed: 37324750
DOI: 10.1093/pcmedi/pbad010 -
Revista Chilena de Infectologia :... Jun 2019
Topics: Actinomycetaceae; Drug Resistance, Microbial
PubMed: 31859756
DOI: 10.4067/S0716-10182019000300369 -
Microbiology (Reading, England) Aug 2020
Topics: Actinomyces; Biofilms; Extracellular Vesicles; Humans; Lipoproteins; Microbiology; Periodicals as Topic; Quorum Sensing
PubMed: 32854815
DOI: 10.1099/mic.0.000969 -
Molecules (Basel, Switzerland) Aug 2023Actinomycetes inhabit both terrestrial and marine ecosystems and are highly proficient in producing a wide range of natural products with diverse biological functions,... (Review)
Review
Actinomycetes inhabit both terrestrial and marine ecosystems and are highly proficient in producing a wide range of natural products with diverse biological functions, including antitumor, immunosuppressive, antimicrobial, and antiviral activities. In this review, we delve into the life cycle, ecology, taxonomy, and classification of actinomycetes, as well as their varied bioactive metabolites recently discovered between 2015 and 2023. Additionally, we explore promising strategies to unveil and investigate new bioactive metabolites, encompassing genome mining, activation of silent genes through signal molecules, and co-cultivation approaches. By presenting this comprehensive and up-to-date review, we hope to offer a potential solution to uncover novel bioactive compounds with essential activities.
Topics: Actinobacteria; Actinomyces; Ecosystem; Anti-Infective Agents; Biological Products
PubMed: 37570885
DOI: 10.3390/molecules28155915 -
Biotechnology Advances Oct 2023Numerous biotic and abiotic stress in some geographical regions predisposed their agricultural matrix to challenges threatening plant productivity, health, and quality.... (Review)
Review
Numerous biotic and abiotic stress in some geographical regions predisposed their agricultural matrix to challenges threatening plant productivity, health, and quality. In curbing these threats, different customary agrarian principles have been created through research and development, ranging from chemical inputs and genetic modification of crops to the recently trending smart agricultural technology. But the peculiarities associated with these methods have made agriculturists rely on plant rhizospheric microbiome services, particularly bacteria. Several bacterial resources like Proteobacteria, Firmicutes, Acidobacteria, and Actinomycetes (Streptomycetes) are prominent as bioinoculants or the application of their by-products in alleviating biotic/abiotic stress have been extensively studied, with a dearth in the application of rare Actinomycetes metabolites. Rare Actinomycetes are known for their colossal genome, containing well-preserved genes coding for prolific secondary metabolites with many agroactive functionalities that can revolutionize the agricultural industry. Therefore, the imperativeness of this review to express the occurrence and distributions of rare Actinomycetes diversity, plant and soil-associated habitats, successional track in the rhizosphere under diverse stress, and their agroactive metabolite characteristics and functionalities that can remediate the challenges associated with agricultural productivity.
Topics: Actinobacteria; Actinomyces; Bacteria; Rhizosphere; Agriculture; Soil; Soil Microbiology
PubMed: 37356598
DOI: 10.1016/j.biotechadv.2023.108205 -
Genome Biology and Evolution Sep 2014The family Actinomycetaceae comprises several important pathogens that impose serious threat to human health and cause substantial infections of economically important...
The family Actinomycetaceae comprises several important pathogens that impose serious threat to human health and cause substantial infections of economically important animals. However, the phylogeny and evolutionary dynamic of this family are poorly characterized. Here, we provide detailed description of the genome characteristics of Trueperella pyogenes, a prevalent opportunistic bacterium that belongs to the family Actinomycetaceae, and the results of comparative genomics analyses suggested that T. pyogenes was a more versatile pathogen than Arcanobacterium haemolyticum in adapting various environments. We then performed phylogenetic analyses at the genomic level and showed that, on the whole, the established members of the family Actinomycetaceae were clearly separated with high bootstrap values but confused with the dominant genus Actinomyces, because the species of genus Actinomyces were divided into three main groups with different G+C content. Although T. pyogenes and A. haemolyticum were found to share the same branch as previously determined, our results of single nucleotide polymorphism tree and genome clustering as well as predicted intercellular metabolic analyses provide evidence that they are phylogenetic neighbors. Finally, we found that the gene gain/loss events occurring in each species may play an important role during the evolution of Actinomycetaceae from free-living to a specific lifestyle.
Topics: Actinomycetaceae; Biological Evolution; Phylogeny
PubMed: 25245410
DOI: 10.1093/gbe/evu211