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Literature DB >> 19216899

Initiation of autophagy by photodynamic therapy.

Abstract

Photodynamic therapy (PDT) involves the irradiation of photosensitized cells with light. Depending on localization of the photosensitizing agent, the process can induce photodamage to the endoplasmic reticulum (ER), mitochondria, plasma membrane, and/or lysosomes. When ER or mitochondria are targeted, antiapoptotic proteins of the Bcl-2 family are especially sensitive to photodamage. Both apoptosis and autophagy can occur after PDT, autophagy being associated with enhanced survival at low levels of photodamage to some cells. Autophagy can become a cell-death pathway if apoptosis is inhibited or when cells attempt to recycle damaged constituents beyond their capacity for recovery. While techniques associated with characterization of autophagy are generally applicable, PDT introduces additional factors related to unknown sites of photodamage that may alter autophagic pathways. This chapter discusses issues that may arise in assessing autophagy after cellular photodamage.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Substances：
Photosensitizing Agents

Year: 2009 PMID： 19216899 PMCID： PMC2962853 DOI： 10.1016/S0076-6879(08)04001-9

Source DB: PubMed Journal: Methods Enzymol ISSN： 0076-6879 Impact factor: 1.600

29 in total

1. Enhanced apoptotic response to photodynamic therapy after bcl-2 transfection.

Authors: H R Kim; Y Luo; G Li; D Kessel
Journal: Cancer Res Date: 1999-07-15 Impact factor: 12.701

2. Domain-dependent photodamage to Bcl-2. A membrane anchorage region is needed to form the target of phthalocyanine photosensitization.

Authors: Jitsuo Usuda; Song-mao Chiu; Erin S Murphy; Minh Lam; Anna-Liisa Nieminen; Nancy L Oleinick
Journal: J Biol Chem Date: 2002-10-11 Impact factor: 5.157

3. Bcl-2 antiapoptotic proteins inhibit Beclin 1-dependent autophagy.

Authors: Sophie Pattingre; Amina Tassa; Xueping Qu; Rita Garuti; Xiao Huan Liang; Noboru Mizushima; Milton Packer; Michael D Schneider; Beth Levine
Journal: Cell Date: 2005-09-23 Impact factor: 41.582

4. Initiation of apoptosis and autophagy by photodynamic therapy.

Authors: David Kessel; M Graça H Vicente; John J Reiners
Journal: Lasers Surg Med Date: 2006-06 Impact factor: 4.025

5. The dynamics of autophagy visualized in live cells: from autophagosome formation to fusion with endo/lysosomes.

Authors: Edward T W Bampton; Christoph G Goemans; Dhevahi Niranjan; Noboru Mizushima; Aviva M Tolkovsky
Journal: Autophagy Date: 2005-04-21 Impact factor: 16.016

6. Autophagy delays apoptotic death in breast cancer cells following DNA damage.

Authors: M J Abedin; D Wang; M A McDonnell; U Lehmann; A Kelekar
Journal: Cell Death Differ Date: 2006-09-22 Impact factor: 15.828

7. Autophagy is activated for cell survival after endoplasmic reticulum stress.

Authors: Maiko Ogata; Shin-ichiro Hino; Atsushi Saito; Keisuke Morikawa; Shinichi Kondo; Soshi Kanemoto; Tomohiko Murakami; Manabu Taniguchi; Ichiro Tanii; Kazuya Yoshinaga; Sadao Shiosaka; James A Hammarback; Fumihiko Urano; Kazunori Imaizumi
Journal: Mol Cell Biol Date: 2006-10-09 Impact factor: 4.272

8. Photodynamic inhibition of enzymatic detachment of human cancer cells from a substratum.

Authors: Anatoly Uzdensky; Asta Juzeniene; Li-Wei Ma; Johan Moan
Journal: Biochim Biophys Acta Date: 2004-01-05

Review 9. Photodynamic therapy.

Authors: T J Dougherty; C J Gomer; B W Henderson; G Jori; D Kessel; M Korbelik; J Moan; Q Peng
Journal: J Natl Cancer Inst Date: 1998-06-17 Impact factor: 13.506

10. Role of endoplasmic reticulum depletion and multidomain proapoptotic BAX and BAK proteins in shaping cell death after hypericin-mediated photodynamic therapy.

Authors: Esther Buytaert; Geert Callewaert; Nico Hendrickx; Luca Scorrano; Dieter Hartmann; Ludwig Missiaen; Jackie R Vandenheede; Ingeborg Heirman; Johan Grooten; Patrizia Agostinis
Journal: FASEB J Date: 2006-02-02 Impact factor: 5.191

20 in total

1. APP and APLP1 are degraded through autophagy in response to proteasome inhibition in neuronal cells.

Authors: Fangfang Zhou; Theo van Laar; Huizhe Huang; Long Zhang
Journal: Protein Cell Date: 2011-05-28 Impact factor: 14.870

Review 2. Mechanisms of resistance to photodynamic therapy.

Authors: A Casas; G Di Venosa; T Hasan
Journal: Curr Med Chem Date: 2011 Impact factor: 4.530

3. Verteporfin-based photodynamic therapy overcomes gemcitabine insensitivity in a panel of pancreatic cancer cell lines.

Authors: Jonathan P Celli; Nicolas Solban; Alvin Liang; Stephen P Pereira; Tayyaba Hasan
Journal: Lasers Surg Med Date: 2011-09 Impact factor: 4.025

4. Conjugation of cRGD peptide to chlorophyll a based photosensitizer (HPPH) alters its pharmacokinetics with enhanced tumor-imaging and photosensitizing (PDT) efficacy.

Authors: Avinash Srivatsan; Manivannan Ethirajan; Suresh K Pandey; Shipra Dubey; Xiang Zheng; Ting-Hsiu Liu; Masayuki Shibata; Joseph Missert; Janet Morgan; Ravindra K Pandey
Journal: Mol Pharm Date: 2011-07-01 Impact factor: 4.939

5. A Combination of Visudyne and a Lipid-anchored Liposomal Formulation of Benzoporphyrin Derivative Enhances Photodynamic Therapy Efficacy in a 3D Model for Ovarian Cancer.

Authors: Imran Rizvi; Shubhankar Nath; Girgis Obaid; Mustafa Kemal Ruhi; Kaitlin Moore; Shazia Bano; David Kessel; Tayyaba Hasan
Journal: Photochem Photobiol Date: 2019-01-07 Impact factor: 3.421

6. Assessment of the effect of laser irradiations at different wavelengths (660, 810, 980, and 1064 nm) on autophagy in a rat model of mucositis.

Authors: Mehmet Bostanciklioglu; Şeniz Demiryürek; Beyhan Cengiz; Tuncer Demir; Serdar Öztuzcu; Mutan Hamdi Aras; Semih Özsevik; Aslihan Usumez; Sercan Ergün; Halime Kübra Özbal; Cahit Bagci
Journal: Lasers Med Sci Date: 2015-03-03 Impact factor: 3.161