患溶血性尿毒症的埃舍里奇病儿童对志贺毒素 2(Stx2)的体液免疫反应

M. A. Shkuratova, A. E. Khlyntseva, O. V. Kalmantaeva, N. N. Kartsev, A. L. Muzurov, V. V. Firstova
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摘要

产志贺毒素大肠埃希菌(STEC)会引起急性肠道感染,也会导致急性肾衰竭,尤其是在儿童中。志贺毒素(Stx)在大肠埃希菌病溶血性尿毒综合征(HUS)的发病机制中占据重要地位。本研究利用微生物学、免疫学研究方法和 PCR 分析,分析了在 HUS 和/或急性肾衰竭表现阶段对肠道出血性埃希氏菌病患者进行实验室诊断的有效性。研究使用了莫斯科圣弗拉基米尔市儿童临床医院儿科重症监护室 30 名有 HUS 症状的患者的临床材料,这些患者的年龄在 8 个月至 5 岁之间。20 名健康献血者的血清作为对照。PCR分析结果显示,23.3%的病例检测到了stx2 DNA。细菌学研究结果显示,只有 3.3% 的病例能培养出纯净的大肠杆菌 O157:H7。由于由产志贺毒素微生物引起的急性肠道感染患者从发病第 5 天起就开始出现 HUS,而此时已经进行了抗生素治疗,细菌可被完全消灭,因此很难通过细菌学方法识别细菌,也很难在 PCR 分析中检测到编码志贺毒素的基因。通常情况下,HUS 患者在发病 5-7 天后被送入重症监护室,此时血液中已经开始出现针对病原体的 G 类免疫球蛋白。因此,使用免疫学检测可有效确诊 STEC 感染。在我们的研究中,63.3%的患者通过酶免疫测定检测出了 Stx2A 抗体,43.3%的患者通过酶免疫测定检测出了 Stx2B 抗体。通过免疫印迹法,我们在所有患者的血清中都检测到了 Stx2A 抗体,在 66.7% 的病例中检测到了 Stx2B 抗体。免疫印迹分析法的特点是检测 Stx2 抗体的灵敏度较高,但由于健康人群中存在免疫层,因此最好使用 ELISA 分析法。在含有 Stx2 抗体的健康供体中,抗体滴度明显低于患者。在进行微生物学和分子遗传学研究时,STEC 感染的实验室确诊非常困难,这一点在这项工作中得到了证实。通过检测 Stx2A 抗体的 ELISA 方法可以提高实验室诊断的有效性。
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Humoral immune response to shiga toxin 2 (Stx2) in children with escherichiosis with hemolytic-uremic syndrome
Shiga toxin-producing Escherichia coli (STEC) causes acute intestinal infections and also causes acute renal failure, especially in children. Shiga toxins (Stx) occupy a central place in the pathogenesis of hemolytic uremic syndrome (HUS) in Escherichiosis. The presented work analyzes the effectiveness of laboratory diagnostics of enterohemorrhagic escherichiosis in patients at the stage of manifestation of HUS and/or acute renal failure using microbiological, immunological research methods and PCR analysis. The study used clinical material from 30 patients in the pediatric intensive care unit of the St. Vladimir Children’s City Clinical Hospital in Moscow with symptoms of HUS aged from 8 months to 5 years. Blood sera from 20 healthy donors were used as control. As a result of PCR analysis, stx2 DNA was detected in 23.3% of cases. Bacteriological research made it possible to sow a pure culture of Escherichia coli O157:H7 in only 3.3% of cases. Since the development of HUS begins in patients with acute intestinal infection caused by Shiga toxin-producing microorganisms starting from the 5th day of the disease, when antibiotic therapy is already carried out, the bacteria can be completely destroyed, which makes it difficult to identify them by bacteriological methods, as well as to detect genes encoding Shiga toxin in PCR analysis. Typically, patients with HUS are admitted to the intensive care unit 5–7 days after the onset of the disease, when class G immunoglobulins specific to the pathogen are already beginning to circulate in the blood. In this regard, the use of immunological tests can be effective to confirm the diagnosis of STEC infection. In our studies, enzyme immunoassay allowed us to detect antibodies to Stx2A in 63.3% and to Stx2B in 43.3% of patients. Using immunoblotting, antibodies to Stx2A were detected in all sera obtained from patients and in 66.7% of cases to Stx2B. Immunoblot analysis was characterized by higher sensitivity for detecting antibodies to Stx2, however, due to the presence of an immunological layer among healthy people, it is preferable to use ELISA analysis. In healthy donors with antibodies to Stx2, the antibody titer was significantly lower than in patients. Laboratory confirmation of the diagnosis of STEC infection is difficult when conducting microbiological and molecular genetic studies, which is confirmed in this work. The effectiveness of laboratory diagnostics can be expanded by performing an ELISA aimed at detecting antibodies to Stx2A.
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