Bioinformatics procedure for investigating senolytic (anti‐aging) agents: A digital signal processing technique

IF 2.2 Q3 GERIATRICS & GERONTOLOGY
Aging Medicine Pub Date : 2024-01-08 DOI:10.1002/agm2.12274
Norbert Nwankwo, Ignatius Okafor
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引用次数: 0

Abstract

Cell growth involves cell division. This stops after reaching a certain limit. Some cells become inactive and unable to undergo apoptosis (programmed cell death). These cells accumulate at sites of tissue damage or disease, thus accelerating aging. They are called senescent cells. Therapeutic interventions that can either eliminate senescent cells (senolytics) or suppress their harmful effects (senomorphics) have been developed. Senescence (aging) is caused by the inter‐ and intramolecular interactions between the domains of forkhead (FHD) and transactivation (TAD), as well as C‐terminal region 3 (CR3) and DNA binding (DBD). On the other hand, anti‐senescent/senolytic (anti‐aging) activities are achieved by disrupting these interactions with CR3‐ and forkhead box protein O4 (FOXO4)‐based peptides, such as ES2 and DRI, respectively. In this study, we use a computerized procedure based on digital signal processing to systematically analyze the inter‐molecular interactions between senolytics and their targets.Informational spectrum method (ISM) is engaged.We obtained the sequences of the peptides from the interacting proteins of CR3 and FOXO4 and evaluated their ability to disrupt the inter‐molecular interactions between FOXO4 and DRI and CR3 and BDB, which are responsible for senescence (aging). Our results show that the peptides have different degrees of senolytic (anti‐aging) activity, depending on their affinity for CR3 and BDB, or FOXO4 and DRI. We found that enhanced senescence 2 (ES2) has a higher affinity for CR3 and BDB than FOXO4 and DRI, and that the interaction between CR3 and BDB is crucial for aging. Therefore, ES2 and other CR3‐based peptides are more potent senolytics than FOXO4‐based peptides. Our findings are consistent with previous studies and reveal new insights into the mechanisms of senescence and senolytics. ES2 is considered the best senolytic candidate, as it is 3–7 times more effective than DRI. We verified that ES2 has a weaker interaction with FOXO4 than CR3. However, the performance of DRI has been noted to depend on its intramolecular interactions and stability. Hence, intramolecular analyses using the digital signal processing‐based technique has become very vital and will follow.CR3‐based peptides are promising candidates for senolytic therapy. Senolytics are linear chains of amino acids that can target and eliminate senescent cells, which are cells that have stopped dividing and contribute to aging and age‐related diseases. By using this proposed, novel computerized technique that is based on digital signal processing, senolytics can be easily analyzed and optimized for their effectiveness and safety. This provides a more rational approach to enhancing our longevity and well‐being by offering interventions that can delay or reverse aging and insights that can advance the field of gerontology. This procedure also will compliment other approaches such as molecular stimulation, etc.
研究抗衰老剂的生物信息学程序:数字信号处理技术
细胞生长涉及细胞分裂。细胞分裂达到一定限度后就会停止。有些细胞变得不活跃,无法进行细胞凋亡(程序性细胞死亡)。这些细胞聚集在组织损伤或疾病部位,从而加速衰老。它们被称为衰老细胞。目前已开发出可消除衰老细胞(衰老分解剂)或抑制其有害影响(衰老形态剂)的治疗干预措施。衰老(老化)是由叉头结构域(FHD)和转录激活结构域(TAD)以及 C 端区域 3(CR3)和 DNA 结合结构域(DBD)之间的分子间和分子内相互作用引起的。另一方面,通过分别使用基于 CR3 和叉头盒蛋白 O4(FOXO4)的肽(如 ES2 和 DRI)破坏这些相互作用,可实现抗衰老/溶解(抗衰老)活性。我们从 CR3 和 FOXO4 的相互作用蛋白中获得了多肽的序列,并评估了它们破坏 FOXO4 和 DRI 以及 CR3 和 BDB 分子间相互作用的能力,这些相互作用是导致衰老的原因。我们的结果表明,根据肽与 CR3 和 BDB 或 FOXO4 和 DRI 的亲和力不同,它们具有不同程度的衰老(抗衰老)活性。我们发现,与 FOXO4 和 DRI 相比,增强衰老 2(ES2)对 CR3 和 BDB 的亲和力更高,而 CR3 和 BDB 之间的相互作用对衰老至关重要。因此,ES2 和其他基于 CR3 的多肽比基于 FOXO4 的多肽具有更强的衰老分解作用。我们的发现与之前的研究一致,并揭示了衰老和衰老解毒剂机制的新见解。ES2 被认为是最佳的衰老分解候选物质,因为它的效果是 DRI 的 3-7 倍。我们验证了 ES2 与 FOXO4 的相互作用弱于 CR3。然而,人们注意到 DRI 的性能取决于其分子内相互作用和稳定性。因此,利用基于数字信号处理的技术进行分子内分析已变得非常重要,并将继续进行。衰老素是一种线性氨基酸链,可以靶向消除衰老细胞,衰老细胞是停止分裂的细胞,会导致衰老和与年龄相关的疾病。通过使用这种基于数字信号处理的新型计算机化技术,可以轻松分析和优化衰老素的有效性和安全性。这为我们提供了一种更合理的方法,通过提供可延缓或逆转衰老的干预措施和可推进老年学领域发展的见解,来提高我们的寿命和福祉。这一程序还将对分子刺激等其他方法起到补充作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Aging Medicine
Aging Medicine Medicine-Geriatrics and Gerontology
CiteScore
4.10
自引率
0.00%
发文量
38
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