化学脑:癌症幸存者中与腺苷A2A受体信号有关的加速衰老过程。

International review of neurobiology Pub Date : 2023-01-01 Epub Date: 2023-08-25 DOI:10.1016/bs.irn.2023.08.003
Alfredo Oliveros, Michael Poleschuk, Peter D Cole, Detlev Boison, Mi-Hyeon Jang
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引用次数: 0

摘要

化疗对癌症治疗结果有显著的积极影响,减少复发和死亡率。然而,许多癌症幸存的儿童和成人遭受异常化疗对学习、记忆、注意力、执行功能和处理速度的神经毒性影响。这种化疗诱导的认知障碍(CICI)被称为“化学脑”或“化学雾”。虽然介导CICI的潜在机制尚不清楚,但有强有力的证据表明,化疗加速了生物衰老过程,表现为端粒缩短、表观遗传失调、氧化应激、线粒体缺陷、神经发生受损和神经炎症,所有这些都会导致焦虑加剧和神经认知能力下降。尽管CICI的发病率增加,但对化疗对癌症幸存者的认知产生不利影响的机制缺乏了解。此外,目前还没有批准针对这种情况的治疗干预措施。为了解决这一知识空白,本综述试图确定腺苷信号传导,特别是通过腺苷A2A受体,如何成为减弱加速衰老表型的重要工具。重要的是,腺苷A2A受体独特地处于癌症治疗和改善认知的十字路口,因为众所周知它可以控制肿瘤微环境中肿瘤诱导的免疫抑制,同时也被认为是神经退行性疾病认知的重要调节器。因此,我们提出,腺苷A2A受体可以提供一种多方面的治疗策略,以增强抗癌活性,同时对抗化疗诱导的认知缺陷,这两种策略对于为癌症幸存者提供针对加速衰老的新的治疗干预至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chemobrain: An accelerated aging process linking adenosine A2A receptor signaling in cancer survivors.

Chemotherapy has a significant positive impact in cancer treatment outcomes, reducing recurrence and mortality. However, many cancer surviving children and adults suffer from aberrant chemotherapy neurotoxic effects on learning, memory, attention, executive functioning, and processing speed. This chemotherapy-induced cognitive impairment (CICI) is referred to as "chemobrain" or "chemofog". While the underlying mechanisms mediating CICI are still unclear, there is strong evidence that chemotherapy accelerates the biological aging process, manifesting as effects which include telomere shortening, epigenetic dysregulation, oxidative stress, mitochondrial defects, impaired neurogenesis, and neuroinflammation, all of which are known to contribute to increased anxiety and neurocognitive decline. Despite the increased prevalence of CICI, there exists a lack of mechanistic understanding by which chemotherapy detrimentally affects cognition in cancer survivors. Moreover, there are no approved therapeutic interventions for this condition. To address this gap in knowledge, this review attempts to identify how adenosine signaling, particularly through the adenosine A2A receptor, can be an essential tool to attenuate accelerated aging phenotypes. Importantly, the adenosine A2A receptor uniquely stands at the crossroads of cancer treatment and improved cognition, given that it is widely known to control tumor induced immunosuppression in the tumor microenvironment, while also posited to be an essential regulator of cognition in neurodegenerative disease. Consequently, we propose that the adenosine A2A receptor may provide a multifaceted therapeutic strategy to enhance anticancer activity, while combating chemotherapy induced cognitive deficits, both which are essential to provide novel therapeutic interventions against accelerated aging in cancer survivors.

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