鼠李糖乳杆菌代谢物吲哚-3-乳酸拮抗SP3/TNF-α通路促进结直肠癌细胞凋亡的机制研究
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1.中国人民解放军海军第九七一医院 普通外科,山东 青岛 266000;2.中国人民解放军海军第九七一医院 军事医学与特种学科,山东 青岛 266000

作者简介:

史惠文,中国人民解放军海军第九七一医院主治医师,主要从事胃肠甲乳方面的研究。

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Mechanism of Lactobacillus rhamnosus metabolite indole-3-lactate promoting colorectal cancer cell apoptosis through antagonizing the SP3/TNF-α pathway
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1.Department of General Surgery, the 971st Naval Hospital of PLA, Qingdao, Shandong 266000, China;2.Department of Military Medicine and Special Sciences, the 971st Naval Hospital of PLA, Qingdao, Shandong 266000, China

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    摘要:

    背景与目的 众所周知,肠道系统的微生物群是调节肠道健康与否的重要微环境。拥有平衡的微生物群有助于预防疾病,特别是与胃肠系统有关的癌症。鼠李糖乳杆菌(L. rhamnosus)具有抗肿瘤作用,但是具体机制尚不明确,基于此,本研究探讨L. rhamnosus对人结直肠癌(CRC)细胞凋亡的影响和潜在机制。方法 将人CRC细胞HCT-116、HT-29以及正常结肠上皮细胞NCM-460用L. rhamnosus的培养上清液(LRCS)或大肠埃希菌(E. Coli)的培养上清液(ECCS)处理后,检测细胞活力、凋亡水平和细胞周期分布。使用3 kDa超滤管将细菌培养上清液分为低分子量组分(<3 kDa)和高分子量组分(>3 kDa),分析这两个组分对细胞凋亡的影响。非靶向LC-MS/MS以鉴定LRCS有效组分中的抗CRC细胞的代谢物,并使用5 μmol/L浓度的上述代谢物筛选影响凋亡的关键代谢物。细胞凋亡通路siRNA筛选鉴定关键代谢物的作用靶标。分子对接分析关键代谢物与靶标分子的相互作用位点。结果 LRCS呈浓度依赖性降低CRC细胞的活力,且明显促进CRC细胞的凋亡(均P<0.05),而ECCS无上述作用(均P>0.05)。进一步分析发现,仅LRCS低分子量能产生上述作用。非靶向LC-MS/MS鉴定以及验证实验表明,吲哚-3-乳酸(I3L)影响CRC细胞凋亡的L. rhamnosus关键代谢物。通过siRNA筛选,将CRC细胞的特异性蛋白3(SP3)敲除后,I3L对CRC细胞的凋亡水平、TNF-α的表达与分泌水平均无明显影响(均P>0.05)。分子对接发现,I3L与SP3的K551、E551和E552存在相互作用。将SP3敲除CRC细胞分别转染SP3野生型过表达质粒和SP3突变型过表达质粒,I3L可以促进前者的细胞凋亡水平和TNF-α分泌水平(均P<0.05),但对后者无此作用(均P>0.05)。结论 L. rhamnosus能促进CRC细胞的凋亡,作用机制可能与其代谢物I3L通过结合SP3的K551、E551和E552位点,增加TNF-α的转录和分泌有关。

    Abstract:

    Background and Aims As is widely known, the microbiota in the gastrointestinal tract plays an important role in regulating intestinal health. Having a balanced microbiota can help prevent diseases, particularly cancer related to the gastrointestinal system. Lactobacillus rhamnosus (L. rhamnosus) has been found to have anti-tumor effects, but the specific mechanisms are still unclear. Based on this, this study was conducted to investigate the impact and potential mechanisms of L. rhamnosus on apoptosis of human colorectal cancer cells (CRC).Methods Human CRC cells HCT-116, HT-29, and normal colon epithelial cells NCM-460 were treated with the culture supernatant of L. rhamnosus (LRCS) or Escherichia coli (E. coli) culture supernatant (ECCS), and cell viability, apoptosis level, and cell cycle distribution were measured. The bacterial culture supernatant was divided into low molecular weight (<3 kDa) and high molecular weight (>3 kDa) fractions using a 3 kDa ultrafiltration membrane, and the effects of these fractions on cell apoptosis were analyzed. Untargeted LC-MS/MS was used to identify anti-CRC metabolites in the effective fraction of LRCS, and these metabolites were screened at a concentration of 5 μmol/L to identify key metabolites affecting apoptosis. SiRNA screening was performed to identify the target of the key metabolites in the apoptotic pathway. Molecular docking analysis was conducted to study the interaction sites between the key metabolites and the target molecules.Results LRCS exhibited a concentration-dependent decreasing effect on cell viability of CRC cells and significantly promoted apoptosis in CRC cells (all P<0.05), while ECCS had no such effects (all P>0.05). Further analysis revealed that only the low molecular weight fraction of LRCS was capable of producing these effects. Untargeted LC-MS/MS identification and validation experiments indicated that indole-3-lactic acid (I3L) was a key metabolite of L. rhamnosus that influenced CRC apoptosis. Through siRNA screening, I3L showed no significant effect on apoptosis level or TNF-α expression and secretion levels in CRC cells with knockout of the specific protein 3 (SP3) (all P>0.05). Molecular docking revealed that I3L interacted with K551, E551, and E552 of SP3. CRC cells with SP3 knockout were transfected with wild-type SP3 overexpression plasmid and mutant SP3 overexpression plasmid, respectively, and I3L was found to promote cell apoptosis and TNF-α secretion in the former (all P<0.05), but had no effect on those in the latter (all P>0.05).Conclusions L. rhamnosus can promote apoptosis of CRC cells, and the mechanism of action may be related to its metabolite I3L binding to the K551, E551, and E552 sites of SP3, leading to increased transcription and secretion of TNF-α.

    图1 不同体积占比(5%、10%、20%)的LRCS或ECCS对CRC细胞及正常结肠上皮细胞活力的影响Fig.1 The effects of LRCS or ECCS with different volume ratios (5%, 10%, 20%) on the viability of CRC cells and normal colonic epithelial cells
    图2 LRCS或ECCS对CRC细胞及正常结肠上皮细胞凋亡和细胞周期分布的影响 A:细胞凋亡水平;B:细胞周期分布Fig.2 The effects of LRCS or ECCS on apoptosis and cell cycle distribution of CRC cells and normal colonic epithelial cells A: Apoptosis levels; B: Cell cycle distribution
    图3 影响凋亡的L. rhamnosus关键代谢物分析 A:LRCS中低分子量组分或高分子量组分对CRC细胞活力的影响;B:经热灭活的LRCS或蛋白酶K处理的LRCS对CRC细胞活力的影响;C:LRCS中低分子量组分或高分子量组分以及经热灭活的LRCS或蛋白酶K处理的LRCS对CRC细胞凋亡的影响;D:非靶向LC-MS/MS鉴定LRCS低分子量组分中的代谢分子,筛选影响CRC细胞凋亡的代谢物及验证Fig.3 Analysis of key metabolites from L. rhamnosus that affect apoptosis A: Effects of low molecular weight or high molecular weight components in LRCS on CRC cell viability; B: Effects of heat-inactivated LRCS or proteinase K-treated LRCS on CRC cell viability; C: Effects of low molecular weight or high molecular weight components in LRCS, as well as heat-inactivated LRCS or proteinase K-treated LRCS, on CRC cell apoptosis; D: Untargeted LC-MS/MS identification of metabolites in low molecular weight components of LRCS, screening and validation of metabolites that affect CRC cell apoptosis
    图4 I3L的靶标分子筛选及鉴定 A:细胞凋亡通路siRNA筛选I3L影响细胞凋亡的靶标;B:不同浓度I3L对SP3敲除的CRC细胞凋亡的影响;C:不同浓度I3L对SP3敲除的CRC细胞的TNF-α mRNA表达的影响;D:不同浓度I3L对SP3敲除的CRC细胞的TNF-α分泌水平的影响;E:分子对接鉴定I3L与SP3的相互作用位点;F:不同浓度I3L对过表达SP3WT或SP3MT且SP3敲除的CRC细胞凋亡的影响;G:不同浓度I3L对过表达SP3WT或SP3MT且SP3敲除的CRC细胞TNF-α分泌水平的影响;H:不同浓度I3L对TNF-α抗体处理或不处理的CRC细胞凋亡的影响;I:不同浓度I3L对TNF-R1敲除或不敲除的CRC细胞凋亡的影响Fig.4 Identification and characterization of target molecules of I3L A: SiRNA screening of apoptosis pathway to identify targets of I3L that affect apoptosis; B: Effects of different concentrations of I3L on apoptosis of CRC cells with SP3 knockout; C: Effects of different concentrations of I3L on TNF-α mRNA expression in CRC cells with SP3 knockout; D: Effects of different concentrations of I3L on TNF-α secretion levels in CRC cells with SP3 knockout; E: Molecular docking to identify the interaction sites between I3L and SP3; F: Effects of different concentrations of I3L on apoptosis of CRC cells overexpressing SP3WT or SP3MT and with SP3 knockout; G: Effects of different concentrations of I3L on TNF-α secretion levels in CRC cells overexpressing SP3WT or SP3MT and with SP3 knockout; H: Effects of different concentrations of I3L on apoptosis of CRC cells treated or not treated with TNF-α antibody; I: Effects of different concentrations of I3L on apoptosis of CRC cells with or without TNF-R1 knockout
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史惠文,陶雪梅,朱延朋.鼠李糖乳杆菌代谢物吲哚-3-乳酸拮抗SP3/TNF-α通路促进结直肠癌细胞凋亡的机制研究[J].中国普通外科杂志,2023,32(4):529-537.
DOI:10.7659/j. issn.1005-6947.2023.04.007

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  • 收稿日期:2022-08-22
  • 最后修改日期:2023-03-21
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  • 在线发布日期: 2023-04-28