A short-term incubation of healthy donor lymphocytes with adenosine or adenosine diphosphoric acid was shown to reduce the number of cells expressing CD4 antigen and to increase the number of CD8 § lymphocytes. The hydra peptide morphogen shifts the balance of immunoregulatory lymphocytes toward a predominance of CD4 + cells. A hypothesis of a two-level system for the regulation of surface antigen expression by lymphocytes during exposure to extreme factors is proposed.
SARS-CoV-2 is a novel coronavirus that has been identified as the cause of the 2019 coronavirus infection (COVID-19), which originated at Wuhan city of PRC in late 2019 and widespread worldwide. As the number of patients recovering from COVID-19 continue to grow, it’s very important to understand what health issues they may keep experiencing. COVID-19 is now recognized as an infectious disease that can cause multiple organ diseases of various localization. It is against this background that a new term was introduced: post-acute post-COVID-19 syndrome characterized by several persistent symptoms inherent in the acute phase of the disease, as well as the occurrence of delayed and (or) long-term complications beyond 4 weeks from the onset of the disease. The work reflected in this article revealed a portrait of a patient with post-COVID-19 syndrome, the most common complications of this period, as well as the mechanisms of their development and the resulting metabolic, cellular, tissue disorders leading to the tissue and organ dysfunctions. A comprehensive biochemical and immunological screening was carried out using the example of three clinical cases to identify the most significant disorders in these patients and to correlate with their clinical status over time. In point of fact, such patients were diagnosed with vascular dysfunction factors (development of endothelial dysfunction), metabolic dysfunction factors (metabolic acidosis, mitochondrial dysfunction, carbohydrate metabolism disorder, insulin resistance, altered branched-chain and aromatic amino acid metabolism), neurological disorder factors (neurotoxicity of the resulting metabolites), immunological disorder factors (decreased efficiency of detoxification systems, secondary immunodeficiency, risk of secondary bacterial infection).
Post-COVID syndrome is characterized by fatigue, reduced exercise tolerance, muscle and joint pain, and psychoemotional disorders. In the development of a generalized body response in a viral infection, abnormal defense responses are of great importance. We studied neutrophils, neutrophil extracellular traps (NETs), DNA degradation products (purine nitrogenous bases, PNBs), and traditional biochemical parameters.Aim. To determine biochemical parameters and the number of NETs and PNBs in the peripheral blood of patients with post-COVID syndrome.Materials and methods. The study included outpatients (n = 21) aged 18–59 years (36 [27 ÷ 50]). The control group consisted of 20 individuals aged 18–59 years (38.5 [29 ÷ 51.5]) without a past medical history of the coronavirus infection. All patients underwent a physical examination, their medical history was assessed, and the level of NETs and PNBs in the venous blood was determined.Results. 11 patients had a mild form of the disease in their past medical history, 7 – moderate, and 3 – severe. The most common symptoms in the patients were fatigue, headache, epigastric pain, dizziness, and joint pain. Hair loss and dyspnea were less common. The concentration of NETs and PNBs was higher in the patients with post-COVID syndrome than in the control group (p < 0.05). We detected NETs in the patients with post-COVID syndrome only in the form of filamentous structures. The concentration of extracellular purine bases in the blood of the patients with post-COVID syndrome was the highest in patients with moderate and severe acute periods. In patients with a mild acute period, the concentration of PNBs was 7.38 [0.0 ÷ 60.7] mg / ml, and in patients with moderate and severe acute periods – 19.15 [0.0 ÷ 33.5] and 34.19 [3.35 ÷ 70.0] mg / ml, respectively.Conclusion. Extracellular purine bases in concentrations capable of causing secondary alteration of cells are found in the peripheral blood of patients with post-COVID syndrome. Post-COVID syndrome is accompanied by the formation of filamentous NETs in the blood of patients.
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