Laboratory of Molecular Biology of Bacterial Pathogens, Institute of Microbiology of the Czech Academy of Sciences, Prague, Czechia.
mSphere. 2024 Aug 28;9(8):e0040724. doi: 10.1128/msphere.00407-24. Epub 2024 Jul 30.
infects the upper airways of humans and disarms host defense by the potent immuno-subversive activities of its pertussis (PT) and adenylate cyclase (CyaA) toxins. CyaA action near-instantly ablates the bactericidal activities of sentinel CR3-expressing myeloid phagocytes by hijacking cellular signaling pathways through the unregulated production of cAMP. Moreover, CyaA-elicited cAMP signaling also inhibits the macrophage colony-stimulating factor (M-CSF)-induced differentiation of incoming inflammatory monocytes into bactericidal macrophages. We show that CyaA/cAMP signaling via protein kinase A (PKA) downregulates the M-CSF-elicited expression of monocyte receptors for transferrin (CD71) and hemoglobin-haptoglobin (CD163), as well as the expression of heme oxygenase-1 (HO-1) involved in iron liberation from internalized heme. The impact of CyaA action on CD71 and CD163 levels in differentiating monocytes is largely alleviated by the histone deacetylase inhibitor trichostatin A (TSA), indicating that CyaA/cAMP signaling triggers epigenetic silencing of genes for micronutrient acquisition receptors. These results suggest a new mechanism by which evades host sentinel phagocytes to achieve proliferation on airway mucosa.IMPORTANCETo establish a productive infection of the nasopharyngeal mucosa and proliferate to sufficiently high numbers that trigger rhinitis and aerosol-mediated transmission, the pertussis agent deploys several immunosuppressive protein toxins that compromise the sentinel functions of mucosa patrolling phagocytes. We show that cAMP signaling elicited by very low concentrations (22 pM) of adenylate cyclase toxin downregulates the iron acquisition systems of CD14 monocytes. The resulting iron deprivation of iron, a key micronutrient, then represents an additional aspect of CyaA toxin action involved in the inhibition of differentiation of monocytes into the enlarged bactericidal macrophage cells. This corroborates the newly discovered paradigm of host defense evasion mechanisms employed by bacterial pathogens, where manipulation of cellular cAMP levels blocks monocyte to macrophage transition and replenishment of exhausted phagocytes, thereby contributing to the formation of a safe niche for pathogen proliferation and dissemination.
感染人类的上呼吸道,并通过其百日咳(PT)和腺苷酸环化酶(CyaA)毒素的强大免疫抑制活性来破坏宿主防御。CyaA 的作用通过无规调控的 cAMP 产生,即刻破坏表达哨兵 CR3 的髓样吞噬细胞的杀菌活性,从而劫持细胞信号通路。此外,CyaA 诱导的 cAMP 信号还抑制巨噬细胞集落刺激因子 (M-CSF) 诱导的传入炎症性单核细胞向杀菌巨噬细胞的分化。我们表明,CyaA/cAMP 信号通过蛋白激酶 A (PKA) 下调 M-CSF 诱导的单核细胞转铁蛋白 (CD71) 和血红蛋白-触珠蛋白 (CD163) 受体的表达,以及涉及从内化血红素中释放铁的血红素加氧酶-1 (HO-1) 的表达。CyaA 作用对分化单核细胞中 CD71 和 CD163 水平的影响在很大程度上被组蛋白去乙酰化酶抑制剂曲古抑菌素 A (TSA) 缓解,表明 CyaA/cAMP 信号触发了获取营养受体基因的表观遗传沉默。这些结果表明了一种新的机制,通过该机制逃避宿主哨兵吞噬细胞,在气道黏膜上实现增殖。
重要性为了在鼻咽黏膜上建立有生产力的感染并增殖到足以触发鼻炎和气溶胶介导传播的足够高的数量,百日咳剂部署了几种免疫抑制蛋白毒素,这些毒素损害了黏膜巡逻吞噬细胞的哨兵功能。我们表明,极低浓度 (22 pM) 的腺苷酸环化酶毒素引发的 cAMP 信号下调了 CD14 单核细胞的铁获取系统。由此导致的铁剥夺,一种关键的微量营养素,然后代表 CyaA 毒素作用的另一个方面,涉及抑制单核细胞分化为增大的杀菌巨噬细胞。这证实了细菌病原体逃避宿主防御机制的新发现范例,其中细胞 cAMP 水平的操纵阻止单核细胞向巨噬细胞的转变和耗尽的吞噬细胞的补充,从而有助于形成病原体增殖和传播的安全生态位。
