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Cell Death Differ. 2018 Aug;25(8):1375-1393. doi: 10.1038/s41418-017-0044-9. Epub 2018 Jan 22.
2
The Unfolded Protein Response in Immunogenic Cell Death and Cancer Immunotherapy.免疫原性细胞死亡与癌症免疫治疗中的未折叠蛋白反应
Trends Cancer. 2017 Sep;3(9):643-658. doi: 10.1016/j.trecan.2017.07.002. Epub 2017 Aug 2.
3
Golgi trafficking defects in postnatal microcephaly: The evidence for "Golgipathies".高尔基运输缺陷与产后小头畸形:“高尔基病”的证据。
Prog Neurobiol. 2017 Jun;153:46-63. doi: 10.1016/j.pneurobio.2017.03.007. Epub 2017 Apr 2.
4
Early Golgi Abnormalities and Neurodegeneration upon Loss of Presynaptic Proteins Munc18-1, Syntaxin-1, or SNAP-25.突触前蛋白Munc18-1、Syntaxin-1或SNAP-25缺失后早期高尔基体异常与神经退行性变
J Neurosci. 2017 Apr 26;37(17):4525-4539. doi: 10.1523/JNEUROSCI.3352-16.2017. Epub 2017 Mar 27.
5
Automated Analysis of Fluorescence Colocalization: Application to Mitophagy.荧光共定位的自动化分析:在线粒体自噬中的应用。
Methods Enzymol. 2017;588:219-230. doi: 10.1016/bs.mie.2016.09.082. Epub 2016 Nov 23.
6
Retrospective electron microscopy: Preservation of fine structure by freezing and aldehyde fixation.回顾性电子显微镜检查:通过冷冻和醛类固定保存精细结构。
Mol Cell Oncol. 2016 Oct 27;3(6):e1251382. doi: 10.1080/23723556.2016.1251382. eCollection 2016.
7
Loss of the golgin GM130 causes Golgi disruption, Purkinje neuron loss, and ataxia in mice.高尔基体蛋白GM130的缺失会导致小鼠高尔基体紊乱、浦肯野神经元丧失和共济失调。
Proc Natl Acad Sci U S A. 2017 Jan 10;114(2):346-351. doi: 10.1073/pnas.1608576114. Epub 2016 Dec 27.
8
Neutral sphingomyelinase (SMPD3) deficiency disrupts the Golgi secretory pathway and causes growth inhibition.中性鞘磷脂酶(SMPD3)缺乏会破坏高尔基体分泌途径并导致生长抑制。
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9
Image Cytofluorometry for the Quantification of Ploidy and Endoplasmic Reticulum Stress in Cancer Cells.用于定量癌细胞倍性和内质网应激的图像细胞荧光测定法。
Methods Mol Biol. 2017;1524:53-64. doi: 10.1007/978-1-4939-6603-5_3.
10
Mitotic Golgi disassembly is required for bipolar spindle formation and mitotic progression.有丝分裂过程中高尔基体的解体是双极纺锤体形成和有丝分裂进程所必需的。
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光动力疗法用雷帕霉素靶向内质网和高尔基体。

Photodynamic therapy with redaporfin targets the endoplasmic reticulum and Golgi apparatus.

机构信息

Chemistry Department, University of Coimbra, Coimbra, Portugal.

Faculty of Medicine, University of Paris Sud, Kremlin-Bicêtre, France.

出版信息

EMBO J. 2018 Jul 2;37(13). doi: 10.15252/embj.201798354. Epub 2018 May 28.

DOI:10.15252/embj.201798354
PMID:29807932
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6028029/
Abstract

Preclinical evidence depicts the capacity of redaporfin (Redp) to act as potent photosensitizer, causing direct antineoplastic effects as well as indirect immune-dependent destruction of malignant lesions. Here, we investigated the mechanisms through which photodynamic therapy (PDT) with redaporfin kills cancer cells. Subcellular localization and fractionation studies based on the physicochemical properties of redaporfin revealed its selective tropism for the endoplasmic reticulum (ER) and the Golgi apparatus (GA). When activated, redaporfin caused rapid reactive oxygen species-dependent perturbation of ER/GA compartments, coupled to ER stress and an inhibition of the GA-dependent secretory pathway. This led to a general inhibition of protein secretion by PDT-treated cancer cells. The ER/GA play a role upstream of mitochondria in the lethal signaling pathway triggered by redaporfin-based PDT Pharmacological perturbation of GA function or homeostasis reduces mitochondrial permeabilization. In contrast, removal of the pro-apoptotic multidomain proteins BAX and BAK or pretreatment with protease inhibitors reduced cell killing, yet left the GA perturbation unaffected. Altogether, these results point to the capacity of redaporfin to kill tumor cells via destroying ER/GA function.

摘要

临床前证据表明,雷多派林(Redp)能够作为一种有效的光敏剂,直接发挥抗肿瘤作用,并通过间接的免疫依赖机制破坏恶性病变。在此,我们研究了雷多派林光动力疗法(PDT)杀死癌细胞的机制。基于雷多派林的理化特性进行的亚细胞定位和分级分离研究表明,它对内质网(ER)和高尔基体(GA)具有选择性趋向性。当被激活时,雷多派林会迅速引起依赖活性氧的 ER/GA 区室的紊乱,同时伴有 ER 应激和 GA 依赖性分泌途径的抑制。这导致 PDT 处理的癌细胞中蛋白质分泌的普遍抑制。在雷多派林 PDT 触发的致死信号通路中,ER/GA 在线粒体的上游发挥作用。GA 功能或动态平衡的药理学干扰会减少线粒体通透性。相比之下,去除促凋亡的多结构域蛋白 BAX 和 BAK 或用蛋白酶抑制剂预处理会降低细胞杀伤作用,但对 GA 的干扰没有影响。总之,这些结果表明,雷多派林通过破坏 ER/GA 功能来杀死肿瘤细胞。