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Journal of Zhejiang University SCIENCE B

ISSN 1673-1581(Print), 1862-1783(Online), Monthly

2023 Vol.24 No.3 P.232-247

AAZ2 induces mitochondrial-dependent apoptosis by targeting PDK1 in gastric cancer

Yi LI, Wenyan SHE, Xiaoran XU, Yixin LIU, Xinyu WANG, Sheng TIAN, Shiyi LI, Miao WANG, Chaochao YU, Pan LIU, Tianhe HUANG, Yongchang WEI

Department of Radiation and Medical Oncology, Zhongnan Hospital of Wuhan University, Hubei Cancer Clinical Study Center & Hubei Key Laboratory of Tumor Biological Behaviors, Wuhan 430071, China; College of Chemistry and Molecular Science, Wuhan University, Wuhan 430072, China; Department of Integrated Chinese and Western Medicine, Zhongnan Hospital of Wuhan University, Wuhan University, Wuhan 430071, China

weiyongchang@whu.edu.cn, zn004593@whu.edu.cn

Abstract: Drastic surges in intracellular reactive oxygen species (ROS) induce cell apoptosis, while most chemotherapy drugs lead to the accumulation of ROS. Here, we constructed an organic compound, arsenical N-‍(4-(1,3,2-dithiarsinan-2-yl)phenyl)acrylamide (AAZ2), which could prompt the ROS to trigger mitochondrial-dependent apoptosis in gastric cancer (GC). Mechanistically, by targeting pyruvate dehydrogenase kinase 1 (PDK1), AAZ2 caused metabolism alteration and the imbalance of redox homeostasis, followed by the inhibition of phosphoinositide-3-kinase (PI3K)/protein kinase B (AKT)/mammalian target of rapamycin (mTOR) pathway and leading to the activation of B-cell lymphoma 2 (Bcl2)/Bcl2-associated X (Bax)/caspase-9 (Cas9)/Cas3 cascades. Importantly, our in vivo data demonstrated that AAZ2 could inhibit the growth of GC xenograft. Overall, our data suggested that AAZ2 could contribute to metabolic abnormalities, leading to mitochondrial-dependent apoptosis by targeting PDK1 in GC.

Key words: N-‍(4-‍(1,3,2-dithiarsinan-2-yl)phenyl)acrylamide (AAZ2); Gastric cancer; Reactive oxygen species (ROS); Apoptosis; Pyruvate dehydrogenase kinase 1 (PDK1); Glucose metabolism

Chinese Summary  <44> 应用于海底地层钻探机器人的自推进钻头设计及自推进效果对比分析

作者:张培豪1,2,林型双1,2,王豪1,2,陈家旺1,2,3,田祯玮1,翁子欣1,任自强1,2,周朋1
机构:1浙江大学,海洋学院,中国舟山,316021;2浙江大学,海南浙江大学研究院,中国三亚,572025;3海洋感知技术与装备教育部工程研究中心,中国舟山,316000
目的:海底地层钻探机器人作为一种新型的海底地层地质调查手段具有广阔的应用前景。本文旨在分析并设计一种新型的自推进式螺旋钻头,以减小机器人在地层中运动时的前端阻力。
创新点:1.通过理论建模分析,推导出新型自推进螺旋钻头的螺旋升角与土壤钻屑排出运动的关系;2.建立仿真模型,成功模拟钻头在海底土壤中的钻进过程,并通过其贯入力和扭矩分析其自推进效果;3.设计试验装置,成功模拟钻头在土壤中的钻进过程,并通过其贯入力和扭矩进一步验证其自推进效果。
方法:1.通过理论推导,构建螺旋叶片升角与土壤钻屑排出运动之间的关系,得到具有设计优势的新型自推进钻头。2.通过Abaqus有限元仿真软件,采用耦合欧拉-拉格朗日方法进行钻头钻进过程的仿真分析,可视化观察钻头钻进过程对周围土壤的扰动范围(图9);对比自推进钻头与传统锥形钻头在相同转速下轴向贯入力上的差别,确定其自推进效果的优势(图10)。3.通过试验,进一步验证所设计的自推进钻头在配制的模拟海底土壤中的减阻钻进效果(图14)。
结论:1.自推进钻头钻进过程对周围土壤的影响范围小于传统锥形钻头;2.自推进钻头能够靠排出土屑提供推进力,因而有着更小的钻进阻力;3.自推进钻头的轴向推进力随着转速的增加而不断增大,所以较高转速有着更好的钻进减阻优势;4.自推进钻头的扭矩高于传统锥形钻头。

关键词组:海底地层调查;钻探机器人;自推进钻头;钻进阻力


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DOI:

10.1631/jzus.B2200351

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On-line Access:

2024-08-27

Received:

2023-10-17

Revision Accepted:

2024-05-08

Crosschecked:

2023-03-13

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