Department of Plastic and Cosmetic Surgery, Xinqiao Hospital, Army Medical University (the Third Military Medical University), Chongqing, China.
Cadet Brigade 4, College of Basic Medicine, Army Medical University (the Third Military Medical University), Chongqing, China.
Microbiol Spectr. 2024 Feb 6;12(2):e0283823. doi: 10.1128/spectrum.02838-23. Epub 2024 Jan 10.
Acne vulgaris caused by antibiotic-resistant () infection is difficult to treat conventionally. Phages have been suggested as a potential solution, but research on the mechanism of phage treatment is inadequate. This research investigates the underlying molecular mechanisms of phage φPaP11-13 attenuating -induced inflammation in rat models. We found that rats infected with had higher average ear thickness, greater enrichment of inflammatory cells as shown by hematoxylin-eosin (HE) staining, and fewer TUNEL (TdT-mediated dUTP Nick-End Labeling)-positive keratinocytes visualized by IF staining. Moreover, an increase of IGF-1 and IGF-1 receptor (IGF-1r) was detected using the immunohistochemical (IHC) staining method, Western blot (WB), and quantitative real-time PCR (qRT-PCR) when infected with , which was decreased after the application of phage φPaP11-13. By applying the IGF-1 antibody, it was demonstrated that the severity of -induced inflammation was relevant to the expression of IGF-1. Through WB and qRT-PCR, activation of the PI3K/Akt pathway and a down-regulation of the BAD-mediated apoptosis pathway were discovered after infection. Subsequently, it was shown that the activation of the PI3K/Akt pathway against BAD-mediated apoptosis pathway was alleviated after applying phage φPaP11-13. Furthermore, applying the IGF-1r inhibitor, Pan-PI3K inhibitor, and Akt inhibitor reversed the changing trends of BAD induced by and phage φPaP11-13. This study demonstrates that one of the critical mechanisms underlying the attenuation of acne vulgaris by phage φPaP11-13 is lysing and regulating keratinocyte apoptosis via the PI3K/Akt signaling pathway.IMPORTANCE infection-induced acne vulgaris may cause severe physical and psychological prognosis. However, the overuse of antibiotics develops drug resistance, bringing challenges in treating . Bacteriophages are currently proven effective in MDR (multiple drug-resistant) , but there is a significant lack of understanding of phage therapy. This study demonstrated a novel way of curing acne vulgaris by using phages through promoting cell death of excessive keratinocytes in acne lesions by lysing . However, the regulation of this cell cycle has not been proven to be directly mediated by phages. The hint of ternary relation among "phage-bacteria-host" inspires huge interest in future phage therapy studies.
寻常痤疮是由抗生素耐药 () 感染引起的,常规治疗较为困难。噬菌体被认为是一种潜在的解决方案,但噬菌体治疗的机制研究还不够充分。本研究旨在探讨噬菌体 φPaP11-13 减轻大鼠模型中 - 诱导炎症的潜在分子机制。我们发现,感染 的大鼠耳厚度平均值更高,苏木精-伊红 (HE) 染色显示炎症细胞富集,IF 染色显示 TUNEL (TdT 介导的 dUTP 缺口末端标记)阳性角蛋白细胞减少。此外,通过免疫组织化学 (IHC) 染色、Western blot (WB) 和定量实时 PCR (qRT-PCR) 检测到感染后 IGF-1 和 IGF-1 受体 (IGF-1r) 增加,而应用噬菌体 φPaP11-13 后则减少。应用 IGF-1 抗体后发现,- 诱导炎症的严重程度与 IGF-1 的表达相关。通过 WB 和 qRT-PCR 发现,感染后 PI3K/Akt 通路被激活,BAD 介导的细胞凋亡通路被下调。随后发现,应用噬菌体 φPaP11-13 后,PI3K/Akt 通路对 BAD 介导的细胞凋亡通路的激活作用得到缓解。此外,应用 IGF-1r 抑制剂、Pan-PI3K 抑制剂和 Akt 抑制剂可逆转 和噬菌体 φPaP11-13 对 BAD 诱导的变化趋势。本研究表明,噬菌体 φPaP11-13 减轻寻常痤疮的关键机制之一是裂解 ,并通过 PI3K/Akt 信号通路调节角蛋白细胞凋亡。
重要说明:感染引起的寻常痤疮可能会导致严重的生理和心理预后。然而,抗生素的过度使用会导致耐药性,给 的治疗带来挑战。噬菌体在多药耐药 (MDR) 方面已被证明是有效的,但对噬菌体治疗的机制了解甚少。本研究通过裂解 来促进痤疮病变中过量角蛋白细胞的死亡,证明了一种利用噬菌体治疗寻常痤疮的新方法。然而,这种细胞周期的调节并没有被证明是由噬菌体直接介导的。“噬菌体-细菌-宿主”三者之间的三元关系提示了未来噬菌体治疗研究的巨大兴趣。
