Most of the currently known fungal laccases show their maximum activity under acidic environmental conditions. It is known that a decrease in the activity of a typical laccase at neutral or alkaline pH values is the result of an increase in the binding of the hydroxide anion to the T2/T3 copper center, which prevents the transfer of an electron from the T1 Cu to the trinuclear copper center. However, evolutionary pressure has resolved the existing limitations in the catalytic mechanism of laccase, allowing such enzymes to be functionally active under neutral/alkaline pH conditions, thereby giving fungi an advantage for their survival. Combined molecular and biochemical studies, homological modeling, calculation of the electrostatic potential on the Connolly surface at pH 5.0 and 7.0, and structural analysis of the novel alkaliphilic laccase of Myrothecium roridum VKM F‐3565 and alkaliphilic and acidophilic fungal laccases with a known structure allowed a new intramolecular channel near the one of the catalytic aspartate residues at T2‐copper atom to be found. The amino acid residues of alkaliphilic laccases forming this channel can presumably serve as proton donors for catalytic aspartates under neutral conditions, thus ensuring proper functioning. For the first time for ascomycetous laccases, the production of new trimeric products of phenylpropanoid condensation under neutral conditions has been shown, which could have a potential for use in pharmacology.
The objective: to analyze the effectiveness of etiological verification of pulmonary mycobacteriosis when using various biological materials at different diagnostic stages.Subjects and Methods. In Center for Diagnosis and Rehabilitation of Respiratory Diseases, CTRI, the results of stage-by-stage examinations of 142 patients (from 2018 to 2022) were analyzed. A retrospective, prospective, cohort, open study was conducted. Inclusion criteria: pulmonary mycobacteriosis etiologically verified by comprehensive microbiological examinations (molecular genetic and cultural tests) (with retrospective analysis after all stages of examination). Exclusion criteria: HIV infection. 115 women and 27 men were enrolled in the study, the age ranged from 21 to 86 years, the mean age was 57,9 years.All patients referred to CTRI for examination due to newly detected changes in the lungs (bronchiectasis, focal changes, and cavities). For etiological verification of the diagnosis, microbiological sputum testing was performed (Stage 1 of the examination); when negative results were obtained, bronchoscopy was prescribed and bronchobiopsies were used for microbiological and molecular genetic diagnostics – Stage 2. In case of negative results of Stage 2, the patient was recommended to undergo a diagnostic resection of the lung – Stage 3 of the examination. At all stages, specimens were sent for comprehensive microbiological testing: fluorescent microscopy to detect acid-fact mycobacteria, real-time polymerase chain reaction (PCR-RV) to detect NTBM DNA. Identification of NTBMB was carried out by molecular genetic methods (PCR for the presence of MTB DNA/NTBM (SYNTOL, Russia), and on DNA strips (GenoType Mycobacterium CM\AS Hain Livescience, Germany)). Specimens were cultured on a liquid medium in the ВАСТЕС MGIT960 (BD, USA).The diagnosis of mycobacteriosis was established in accordance with the diagnostic criteria proposed in the guidelines of the American Thoracic Society (ATS) and the Infectious Diseases Society of America (IDSA) (2020): detection of NTBM in 2 sputum samples or in 1 sample of bronchobiopsy specimens or in 1 surgical specimens [15].The studied data were entered to the Microsoft Office Excel sheet (Microsoft, USA) for statistical processing; the level of statistical significance of differences was taken as 0.05.Results. It was found that slow-growing NTBM were identified as etiologically significant in 93.0%, of which 78.1% was M. avium, fast-growing NTBM were represented only by M. abscessus, 7% of observations. During X-ray examination, the bronchiectatic form – 52.1% (74/142) was detected more often compared to the abdominal – 30.9% (44/142) and focal forms – 16.9% (24/142) (p<0.001). When verifying mycobacteriosis in patients with a negative sputum test – Stage 2 of the examination – the effectiveness was 91.0% (80/88). Regardless of the radiological form of the disease and dissemination of the disease, bronchoscopy revealed pathology of the tracheobronchial tree in 85.2% of cases, mainly in the form of bronchitis with purulent secretions.
The paper describes a clinical case of hypersensitivity pneumonitis in a young patient during the COVID-19 pandemic when the patient having complaints of dyspnea and interstitial lung changes as ground glass opacity was initially unambiguously diagnosed with viral COVID-related bilateral pneumonia. The chief computed tomography manifestations in the lung were infiltrative inflammatory changes as numerous areas of predominantly interstitial infiltration by the type of ground glass, with consolidation areas and reticular changes, varying in extent, peripheral localization, mainly in the lower lobes and with the 25–50% involvement of the right and left lung parenchyma. The diagnosis of hypersensitivity pneumonitis was confirmed by cytological and histological examinations of the biopsy material obtained during bronchoscopy using a set of biopsies and endobronchial cryobiopsy.This clinical case demonstrates that the chest computed tomography detection of pulmonary ground glasstype changes is a reason for further patient examinations and requires morphological verification of the diagnosis, since the cost of a diagnostic error is the life of a patient.
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