Surkova Daria, Lavrenova Viktoria, Klyagin Sergey, Shestakova Anna, Osmolovsky Alexander
Department of Microbiology, Faculty of Biology, Lomonosov Moscow State University, Moscow, Russia.
Faculty of Biology and Biotechnology, HSE University, Moscow, Russia.
Curr Med Mycol. 2023 Mar;9(1):8-13. doi: 10.18502/CMM.2023.150674.
For these intents, proteases cardiovascular disease is the primary cause of death; hence, accurate diagnosis and treatment are urgently required are regarded as prospective agents . High substrate specificity is needed for an effective enzyme, which makes micromycetes, known for producing proteases with precise action, biotechnologically promising. This study mainly aimed to look at the possibilities of species, which had never been mentioned in terms of general proteolytics.
Every species was cultivated in two-stage submerged conditions with two different nitrogen sources; whereupon, proteolytic activity in culture fluid was determined. Chromogenic peptide substrates and fibrin plates were used to evaluate the thrombin, plasmin, factor Xa, urokinase, protein C-like, activating activities towards hemostasis proteins, as well as fibrinolytic and plasminogen-activating activities of these species.
It was found that and are active proteolytics exhibiting plasmin-like activities (116.17 and 87.09 U×10, respectively), factor Xa-like activity (76.27 and 77.92 U×10, respectively) and urokinase activity (85.99 and 59.91 U×10, respectively). The thrombin-like activity was found for (50.37 U×10), and protein C-like activity was noticeable for , , , and (62.90, 65.51, 73.37, and 111.85 U×10, respectively). Additionally, more than half of species had the ability to directly activate plasminogen or operate as fibrinolytics.
New proteolytic strains were discovered, offering hope for the therapy of cardiovascular disorders. The high specificity and activity of fungal enzymes make them useful in a variety of fields, including medicine and diagnostics.
就这些目的而言,蛋白酶在心血管疾病中是主要死因;因此,迫切需要准确的诊断和治疗,蛋白酶被视为有前景的药物。一种有效的酶需要高底物特异性,这使得以产生具有精确作用的蛋白酶而闻名的微真菌在生物技术方面具有前景。本研究主要旨在探讨一些在一般蛋白水解方面从未被提及过的物种的可能性。
每个物种在含有两种不同氮源的两阶段深层培养条件下培养;随后,测定培养液中的蛋白水解活性。使用发色肽底物和纤维蛋白平板来评估这些物种对凝血酶、纤溶酶、因子Xa、尿激酶、蛋白C样物质的活性,以及对止血蛋白的激活活性,以及它们的纤维蛋白溶解和纤溶酶原激活活性。
发现[物种名称1]和[物种名称2]是具有纤溶酶样活性(分别为116.17和87.09 U×10)、因子Xa样活性(分别为76.27和77.92 U×10)和尿激酶活性(分别为85.99和59.91 U×10)的活性蛋白水解酶。发现[物种名称3]具有凝血酶样活性(50.37 U×10),并且[物种名称4]、[物种名称5]、[物种名称6]和[物种名称7]具有明显的蛋白C样活性(分别为62.90、65.51、73.37和111.85 U×10)。此外,超过一半的物种具有直接激活纤溶酶原或作为纤维蛋白溶解剂发挥作用的能力。
发现了新的蛋白水解菌株,为心血管疾病的治疗带来了希望。真菌酶的高特异性和活性使其在包括医学和诊断学在内的各种领域都有用途。
