针对结直肠癌的碳水化合物代谢--DNA 损伤剂、大麻素和间歇性血清饥饿之间的协同作用。

Oncoscience Pub Date : 2024-11-12 eCollection Date: 2024-01-01 DOI:10.18632/oncoscience.611
Viktoriia Cherkasova, Olga Kovalchuk, Igor Kovalchuk
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引用次数: 0

摘要

化疗是许多癌症的首选疗法。然而,化疗对病人的长期存活率往往不高,而且通常伴有多种不良反应。这些不良反应主要与对正常细胞的毒性有关,经常导致免疫系统抑制、恶心、食欲不振和新陈代谢改变。在这方面,化疗与大麻素(尤其是非精神活性的大麻素,如大麻二酚、大麻酚和其他次要大麻素以及萜类化合物)的结合可能非常有用。这一点尤为重要,因为大麻素对癌细胞的抗癌作用机制通常不同于传统的化疗药物。此外,大麻素还有助于减轻化疗引起的不良反应,调节睡眠和食欲,并具有镇痛作用。实现潜在抗癌协同作用的另一个要素是通过限制热量和间歇性禁食来调节癌细胞的营养供应和新陈代谢。由于肿瘤的生长需要大量的能量,而葡萄糖可以随时获得,因此恶性细胞往往选择通过底物级磷酸化(发酵)而不是氧化磷酸化将葡萄糖作为产生 ATP 的主要来源。因此,周期性地消耗癌细胞的主要燃料--葡萄糖,在与大麻素结合使用时,可能会在化疗和放疗杀死癌细胞方面产生强大的协同作用。这篇评论将讨论有关这种组合疗法的已知信息,包括潜在机制和未来方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Targeting carbohydrate metabolism in colorectal cancer - synergy between DNA-damaging agents, cannabinoids, and intermittent serum starvation.

Chemotherapy is a therapy of choice for many cancers. However, it is often inefficient for long-term patient survival and is usually accompanied by multiple adverse effects. The adverse effects are mainly associated with toxicity to normal cells, frequently resulting in immune system depression, nausea, loss of appetite and metabolic changes. In this respect, the combination of chemotherapy with cannabinoids, especially non-psychoactive, such as cannabidiol, cannabinol and other minor cannabinoids, as well as terpenes, may become very useful. This is especially pertinent because the mechanisms of anticancer effects of cannabinoids on cancer cells are often different from conventional chemotherapeutics. In addition, cannabinoids help alleviate chemotherapy-induced adverse effects, regulate sleep and appetite, and are shown to have analgesic properties. Another component for achieving potential anti-cancer synergism is regulating nutrient availability and metabolism by calorie restriction and intermittent fasting in cancer cells. As tumours require a lot of energy to grow and because glucose is constantly available, malignant cells often opt to use glucose as a primary source of ATP production through substrate-level phosphorylation (fermentation) rather than through oxidative phosphorylation. Thus, periodic depletion of cancer cells of primary fuel, glucose, could result in a strong synergy in killing cancer cells by chemo- and possibly radiotherapy when combined with cannabinoids. This commentary will discuss what is known about such combinatorial treatments, including potential mechanisms and future protocols.

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