New insights into the domain of unknown function (DUF) of EccC5, the pivotal ATPase providing the secretion driving force to the ESX-5 secretion system.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-06-01 Epub Date: 2024-05-28 DOI:10.1107/S2059798324004248
Fernando Ceballos-Zúñiga, Margarita Menéndez, Inmaculada Pérez-Dorado
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Abstract

Type VII secretion (T7S) systems, also referred to as ESAT-6 secretion (ESX) systems, are molecular machines that have gained great attention due to their implications in cell homeostasis and in host-pathogen interactions in mycobacteria. The latter include important human pathogens such as Mycobacterium tuberculosis (Mtb), the etiological cause of human tuberculosis, which constitutes a pandemic accounting for more than one million deaths every year. The ESX-5 system is exclusively found in slow-growing pathogenic mycobacteria, where it mediates the secretion of a large family of virulence factors: the PE and PPE proteins. The secretion driving force is provided by EccC5, a multidomain ATPase that operates using four globular cytosolic domains: an N-terminal domain of unknown function (EccC5DUF) and three FtsK/SpoIIIE ATPase domains. Recent structural and functional studies of ESX-3 and ESX-5 systems have revealed EccCDUF to be an ATPase-like fold domain with potential ATPase activity, the functionality of which is essential for secretion. Here, the crystal structure of the MtbEccC5DUF domain is reported at 2.05 Å resolution, which reveals a nucleotide-free structure with degenerated cis-acting and trans-acting elements involved in ATP binding and hydrolysis. This crystallographic study, together with a biophysical assessment of the interaction of MtbEccC5DUF with ATP/Mg2+, supports the absence of ATPase activity proposed for this domain. It is shown that this degeneration is also present in DUF domains from other ESX and ESX-like systems, which are likely to exhibit poor or null ATPase activity. Moreover, based on an in silico model of the N-terminal region of MtbEccC5DUF, it is hypothesized that MtbEccC5DUF is a degenerated ATPase domain that may have retained the ability to hexamerize. These observations draw attention to DUF domains as structural elements with potential implications in the opening and closure of the membrane pore during the secretion process via their involvement in inter-protomer interactions.

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对 EccC5 未知功能域 (DUF) 的新认识,EccC5 是为 ESX-5 分泌系统提供分泌驱动力的关键 ATP 酶。
Ⅶ型分泌(T7S)系统,也称为 ESAT-6 分泌(ESX)系统,是一种分子机器,由于其在细胞稳态和分枝杆菌中宿主-病原体相互作用中的作用而备受关注。后者包括重要的人类病原体,如结核分枝杆菌(Mtb),它是人类结核病的病原体,每年造成一百多万人死亡。ESX-5 系统只存在于生长缓慢的致病分枝杆菌中,它介导着一大批毒力因子的分泌:PE 和 PPE 蛋白。分泌驱动力由 EccC5 提供,它是一种多域 ATP 酶,利用四个球状细胞膜结构域运行:一个功能未知的 N 端结构域(EccC5DUF)和三个 FtsK/SpoIIIE ATP 酶结构域。最近对 ESX-3 和 ESX-5 系统的结构和功能研究发现,EccCDUF 是一个具有潜在 ATPase 活性的 ATPase 样折叠结构域,其功能对于分泌至关重要。本文以 2.05 Å 的分辨率报告了 MtbEccC5DUF 结构域的晶体结构,它揭示了一种无核苷酸结构,其中有退化的顺式作用和反式作用元件,参与 ATP 结合和水解。这项晶体学研究以及对 MtbEccC5DUF 与 ATP/Mg2+ 相互作用的生物物理评估,支持了该结构域不具有 ATP 酶活性的观点。研究表明,其他 ESX 和类 ESX 系统的 DUF 结构域也存在这种退化现象,它们很可能表现出较低或无效的 ATPase 活性。此外,根据对 MtbEccC5DUF N 端区域的硅学模型推测,MtbEccC5DUF 是一个退化的 ATPase 结构域,可能保留了六聚化的能力。这些观察结果使人们注意到 DUF 结构域在分泌过程中通过参与原体间的相互作用而对膜孔的打开和关闭具有潜在影响。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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