Sablón-Carrazana Marquiza, Fernández Isaac, Bencomo Alberto, Lara-Martínez Reyna, Rivera-Marrero Suchitil, Domínguez Guadalupe, Pérez-Perera Rafaela, Jiménez-García Luis Felipe, Altamirano-Bustamante Nelly F, Diaz-Delgado Massiel, Vedrenne Fernand, Rivillas-Acevedo Lina, Pasten-Hidalgo Karina, Segura-Valdez María de Lourdes, Islas-Andrade Sergio, Garrido-Magaña Eulalia, Perera-Pintado Alejandro, Prats-Capote Anaís, Rodríguez-Tanty Chryslaine, Altamirano-Bustamante Myriam M
Dpto. Neurodiagnóstico, Centro de Neurociencias de Cuba, Cubanacán, Playa, La Habana, Cuba; Unidad de Investigación Médica en Enfermedades Metabólicas, Hospital de Cardiología, Centro Médico Nacional Siglo XXI, Instituto Mexicano del Seguro Social, México D.F., México.
Unidad de Investigación Médica en Enfermedades Metabólicas, Hospital de Cardiología, Centro Médico Nacional Siglo XXI, Instituto Mexicano del Seguro Social, México D.F., México; Departamento de Microbiología, Escuela Nacional de Ciencias Biológicas, Instituto Politécnico Nacional, México D.F., México.
PLoS One. 2015 Sep 1;10(9):e0135292. doi: 10.1371/journal.pone.0135292. eCollection 2015.
The increasing prevalence of conformational diseases, including Alzheimer's disease, type 2 Diabetes Mellitus and Cancer, poses a global challenge at many different levels. It has devastating effects on the sufferers as well as a tremendous economic impact on families and the health system. In this work, we apply a cross-functional approach that combines ideas, concepts and technologies from several disciplines in order to study, in silico and in vitro, the role of a novel chemical chaperones family (NCHCHF) in processes of protein aggregation in conformational diseases. Given that Serum Albumin (SA) is the most abundant protein in the blood of mammals, and Bovine Serum Albumin (BSA) is an off-the-shelf protein available in most labs around the world, we compared the ligandability of BSA:NCHCHF with the interaction sites in the Human Islet Amyloid Polypeptide (hIAPP):NCHCHF, and in the amyloid pharmacophore fragments (Aβ17-42 and Aβ16-21):NCHCHF. We posit that the merging of this interaction sites is a meta-structure of pharmacophore which allows the development of chaperones that can prevent protein aggregation at various states from: stabilizing the native state to destabilizing oligomeric state and protofilament. Furthermore to stabilize fibrillar structures, thus decreasing the amount of toxic oligomers in solution, as is the case with the NCHCHF. The paper demonstrates how a set of NCHCHF can be used for studying and potentially treating the various physiopathological stages of a conformational disease. For instance, when dealing with an acute phase of cytotoxicity, what is needed is the recruitment of cytotoxic oligomers, thus chaperone F, which accelerates fiber formation, would be very useful; whereas in a chronic stage it is better to have chaperones A, B, C, and D, which stabilize the native and fibril structures halting self-catalysis and the creation of cytotoxic oligomers as a consequence of fiber formation. Furthermore, all the chaperones are able to protect and recondition the cerebellar granule cells (CGC) from the cytotoxicity produced by the hIAPP20-29 fragment or by a low potassium medium, regardless of their capacity for accelerating or inhibiting in vitro formation of fibers. In vivo animal experiments are required to study the impact of chemical chaperones in cognitive and metabolic syndromes.
包括阿尔茨海默病、2型糖尿病和癌症在内的构象疾病患病率不断上升,在许多不同层面构成了全球性挑战。它对患者具有毁灭性影响,同时对家庭和卫生系统造成巨大经济影响。在这项工作中,我们采用了一种跨学科方法,融合了多个学科的思想、概念和技术,以便在计算机模拟和体外实验中研究一种新型化学伴侣家族(NCHCHF)在构象疾病中蛋白质聚集过程中的作用。鉴于血清白蛋白(SA)是哺乳动物血液中含量最丰富的蛋白质,而牛血清白蛋白(BSA)是世界上大多数实验室都能买到的现成蛋白质,我们比较了BSA:NCHCHF与人胰岛淀粉样多肽(hIAPP):NCHCHF以及淀粉样药效团片段(Aβ17 - 42和Aβ16 - 21):NCHCHF中的相互作用位点的可配体性。我们认为,这种相互作用位点的融合是药效团的一种元结构,它能够开发出可以在不同状态下阻止蛋白质聚集的伴侣蛋白:从稳定天然状态到破坏寡聚状态和原纤维状态。此外,为了稳定纤维状结构,从而减少溶液中有毒寡聚体的数量,NCHCHF就是这样的例子。本文展示了一组NCHCHF如何用于研究和潜在治疗构象疾病的各种生理病理阶段。例如,在处理细胞毒性急性期时,需要招募细胞毒性寡聚体,因此加速纤维形成的伴侣蛋白F会非常有用;而在慢性阶段,最好有伴侣蛋白A、B、C和D,它们能稳定天然和纤维状结构,阻止自我催化以及因纤维形成而产生细胞毒性寡聚体。此外,所有的伴侣蛋白都能够保护小脑颗粒细胞(CGC)免受hIAPP20 - 29片段或低钾培养基产生的细胞毒性影响,无论它们在体外加速或抑制纤维形成的能力如何。需要进行体内动物实验来研究化学伴侣蛋白对认知和代谢综合征的影响。
