杂化文石-果胶微球对大肠杆菌和人中性粒细胞的生物学活性。

Biological Activity of Hybrid Vaterite-Pectin Microparticles Towards Bacteria E. coli and Human Neutrophils.

机构信息

Lopukhin Federal Research and Clinical Center of Physical-Chemical Medicine, Federal Medical-Biological Agency of Russia, Moscow, Russia.

Faculty of Chemistry, Lomonosov Moscow State University, Moscow, Russia.

出版信息

Bull Exp Biol Med. 2024 Jun;177(2):238-242. doi: 10.1007/s10517-024-06164-2. Epub 2024 Aug 1.

DOI:10.1007/s10517-024-06164-2

PMID:39090460

Abstract

Interaction of microbiota with hybrid vaterite-pectin microparticles as an attractive multifunctional vehicle for mucosal delivery should not provoke inflammation. Our purpose was to study the reaction of bacteria E. coli strain Mg1655 and isolate SharL from a patient with Crohn disease on the cultivation with hybrid microparticles and vaterite, and the subsequent activation of neutrophils. Vaterite-pectin microparticles enhanced leakage of ATP from bacteria. For E. coli Mg1655, the concentration of DNA decreased, while intracellular ATP increased. For E. coli SharL, the intracellular ATP decreased with simultaneous growth of DNA. Bacteria and microparticles together did not enhance activation of neutrophils in comparison with the particles per se in the medium without serum and in comparison with bacteria in the medium supplemented with serum; microparticles did not reduce functional activity of neutrophils.

摘要

微生物群与混合水钙石-果胶微粒的相互作用作为一种有吸引力的多功能黏膜传递载体，不应该引发炎症。我们的目的是研究细菌大肠杆菌株 Mg1655 和来自克罗恩病患者的 SharL 分离株在与混合微粒和水钙石培养时的反应，以及随后对中性粒细胞的激活。水钙石-果胶微粒增强了细菌中 ATP 的渗漏。对于大肠杆菌 Mg1655，DNA 浓度降低，而细胞内 ATP 增加。对于 SharL 大肠杆菌，细胞内 ATP 减少，同时 DNA 生长。与不含血清的培养基中的颗粒本身相比，与补充有血清的培养基中的细菌相比，细菌和微粒一起并没有增强中性粒细胞的激活；微粒并没有降低中性粒细胞的功能活性。

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杂化文石-果胶微球对大肠杆菌和人中性粒细胞的生物学活性。

Biological Activity of Hybrid Vaterite-Pectin Microparticles Towards Bacteria E. coli and Human Neutrophils.

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