Targeting PI3K-AKT pathway for cancer therapy.

Yiling Lu, Hongwei Wang, Gordon B Mills
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Abstract

The phosphatidilinositol 3-kinase/protein kinase B (PI3K-AKT) pathway presents an exciting new target for molecular therapeutics. While exhibiting great promise, additional preclinical and clinical studies will be required to determine how best to target this pathway to improve patient outcome. A number of questions need to be answered prior to the implementation into patient care practices. As described below, the PI3K-AKT pathway regulates a broad spectrum of cellular processes, some of which are necessary to maintain normal physiological functions, which potentially contribute to the toxicity of the drugs targeting the pathway. Elucidation of the precise function of the PI3K-AKT isoforms, could promote the development of isoform specific approaches to provide a selective action on tumor cells. However, whether this will be possible due to conservation of structural domains is not yet clear. Inhibition of the PI3K-AKT pathway at multiple sites or a combination with inhibitors of different signaling pathways may allow the development of an acceptable therapeutic index for cancer management. Further, inhibition of the PI3K-AKT pathway combined with conventional chemotherapy or radiation therapy may provide a more effective strategy to improve patient outcome. As molecular therapeutics target the underlying defects in patient tumors, molecular diagnostics are required to identify patients with particular genetic aberrations in the pathway. It will be critical to provide adequate therapeutic strategies tailored to each patient. In addition, patients with different genetic backgrounds or in different health conditions could respond adversely to particular therapeutics. Therefore, identification of patients for particular drugs based on the underlying genetic defects in the tumor as well as the characteristics of the host would be of benefit for improving patient outcome. Linking the targeted therapeutics to molecular imaging approaches will determine appropriate biologically relevant dose for patients. It will also define expected tumor responsiveness and eventually will improve efficacy and decrease toxicity. In this regard, personalized molecular medicine is likely to soon provide effective cancer treatment.

靶向PI3K-AKT通路的癌症治疗
磷脂酰肌醇3-激酶/蛋白激酶B (PI3K-AKT)通路为分子治疗提供了令人兴奋的新靶点。虽然显示出巨大的希望,但需要更多的临床前和临床研究来确定如何最好地靶向这一途径以改善患者的预后。在实施到患者护理实践之前,需要回答一些问题。如下所述,PI3K-AKT通路调节广泛的细胞过程,其中一些是维持正常生理功能所必需的,这可能有助于靶向该通路的药物的毒性。阐明PI3K-AKT亚型的精确功能,可以促进亚型特异性方法的发展,以提供对肿瘤细胞的选择性作用。然而,由于结构域的守恒,这是否可能还不清楚。在多个位点抑制PI3K-AKT通路或与不同信号通路的抑制剂联合,可能有助于开发可接受的癌症治疗指标。此外,抑制PI3K-AKT通路联合常规化疗或放疗可能是改善患者预后的更有效策略。由于分子疗法针对的是患者肿瘤的潜在缺陷,因此需要分子诊断来识别该通路中存在特定遗传畸变的患者。为每位患者量身定制适当的治疗策略至关重要。此外,不同遗传背景或不同健康状况的患者可能对特定疗法产生不良反应。因此,根据肿瘤中潜在的遗传缺陷以及宿主的特征来确定特定药物的患者将有利于改善患者的预后。将靶向治疗与分子成像方法相结合,将为患者确定适当的生物学相关剂量。它还将确定预期的肿瘤反应性,最终将提高疗效并降低毒性。在这方面,个性化分子医学可能很快就会提供有效的癌症治疗。
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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