急性髓系白血病溶酶体介导的化疗耐药。

IF 4.6 Q1 ONCOLOGY
Laia Cuesta-Casanovas, Jennifer Delgado-Martínez, Josep M Cornet-Masana, José M Carbó, Lise Clément-Demange, Ruth M Risueño
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引用次数: 3

摘要

尽管在理解急性髓性白血病(AML)病理生理学基础的生物学方面取得了显著进展,并且最近发表了有希望的临床前数据,但AML治疗仍然依赖于过去50年来基本不变的经典化疗方案。近年来,治疗AML的新药已获批,但真正的临床效益仍在评估中。然而,原发性难治性和复发性AML仍然是主要的临床挑战,因为大多数AML患者将死于该疾病,尽管在诱导阶段实现了完全缓解。因此,化疗耐药AML的治疗是该疾病未满足的需求。尽管已经做出了巨大的努力来破译白血病发生的生物学基础,但AML细胞对化疗产生耐药性的机制在很大程度上是未知的。识别与耐药相关的信号通路可能会导致新的联合疗法或适合这类患者的新的治疗方法。已经确定了几种化学耐药机制,包括药物转运体、关键的次级信使和代谢调节因子。然而,针对化疗耐药的治疗方法尚未在临床试验中取得成功,特别是由于对健康细胞的广泛继发性影响。最近的研究强调了溶酶体在这一现象中的重要性。溶酶体在化疗耐药中的关键作用包括隔离药物的潜力、中枢代谢信号的作用和基因表达调控。这些结果为开发针对AML溶酶体的新治疗方法提供了进一步的证据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Lysosome-mediated chemoresistance in acute myeloid leukemia.

Lysosome-mediated chemoresistance in acute myeloid leukemia.

Despite the outstanding advances in understanding the biology underlying the pathophysiology of acute myeloid leukemia (AML) and the promising preclinical data published lastly, AML treatment still relies on a classic chemotherapy regimen largely unchanged for the past five decades. Recently, new drugs have been approved for AML, but the real clinical benefit is still under evaluation. Nevertheless, primary refractory and relapse AML continue to represent the main clinical challenge, as the majority of AML patients will succumb to the disease despite achieving a complete remission during the induction phase. As such, treatments for chemoresistant AML represent an unmet need in this disease. Although great efforts have been made to decipher the biological basis for leukemogenesis, the mechanism by which AML cells become resistant to chemotherapy is largely unknown. The identification of the signaling pathways involved in resistance may lead to new combinatory therapies or new therapeutic approaches suitable for this subset of patients. Several mechanisms of chemoresistance have been identified, including drug transporters, key secondary messengers, and metabolic regulators. However, no therapeutic approach targeting chemoresistance has succeeded in clinical trials, especially due to broad secondary effects in healthy cells. Recent research has highlighted the importance of lysosomes in this phenomenon. Lysosomes' key role in resistance to chemotherapy includes the potential to sequester drugs, central metabolic signaling role, and gene expression regulation. These results provide further evidence to support the development of new therapeutic approaches that target lysosomes in AML.

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