Literature DB >> 28459562

Overcoming the Limits of Hypoxia in Photodynamic Therapy: A Carbonic Anhydrase IX-Targeted Approach.

Hyo Sung Jung1, Jiyou Han2, Hu Shi3, Seyoung Koo, Hardev Singh, Hyo-Jin Kim, Jonathan L Sessler1, Jin Yong Lee3, Jong-Hoon Kim, Jong Seung Kim.   

Abstract

A major challenge in photodynamic cancer therapy (PDT) is avoiding PDT-induced hypoxia, which can lead to cancer recurrence and progression through activation of various angiogenic factors and significantly reduce treatment outcomes. Reported here is an acetazolamide (AZ)-conjugated BODIPY photosensitizer (AZ-BPS) designed to mitigate the effects of PDT-based hypoxia by combining the benefits of anti-angiogenesis therapy with PDT. AZ-BPS showed specific affinity to aggressive cancer cells (MDA-MB-231 cells) that overexpress carbonic anhydrase IX (CAIX). It displayed enhanced photocytotoxicity compared to a reference compound, BPS, which is an analogous PDT agent that lacks an acetazolamide unit. AZ-BPS also displayed an enhanced in vivo efficacy in a xenograft mouse tumor regrowth model relative to BPS, an effect attributed to inhibition of tumor angiogenesis by both PDT-induced ROS generation and CAIX knockdown. AZ-BPS was evaluated successfully in clinical samples collected from breast cancer patients. We thus believe that the combined approach described here represents an attractive therapeutic approach to targeting CAIX-overexpressing tumors.

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Year:  2017        PMID: 28459562      PMCID: PMC5772932          DOI: 10.1021/jacs.7b02396

Source DB:  PubMed          Journal:  J Am Chem Soc        ISSN: 0002-7863            Impact factor:   15.419


  46 in total

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Authors:  Nagappanpillai Adarsh; Rekha R Avirah; Danaboyina Ramaiah
Journal:  Org Lett       Date:  2010-11-19       Impact factor: 6.005

Review 2.  How does photodynamic therapy work?

Authors:  B W Henderson; T J Dougherty
Journal:  Photochem Photobiol       Date:  1992-01       Impact factor: 3.421

3.  Expression of hypoxia-inducible carbonic anhydrase-9 relates to angiogenic pathways and independently to poor outcome in non-small cell lung cancer.

Authors:  A Giatromanolaki; M I Koukourakis; E Sivridis; J Pastorek; C C Wykoff; K C Gatter; A L Harris
Journal:  Cancer Res       Date:  2001-11-01       Impact factor: 12.701

4.  Breast cancer metastasis and the lymphatic system.

Authors:  Munazzah Rahman; Sulma Mohammed
Journal:  Oncol Lett       Date:  2015-07-13       Impact factor: 2.967

5.  Antiangiogenic therapy targeting the tyrosine kinase receptor for vascular endothelial growth factor receptor inhibits the growth of colon cancer liver metastasis and induces tumor and endothelial cell apoptosis.

Authors:  R M Shaheen; D W Davis; W Liu; B K Zebrowski; M R Wilson; C D Bucana; D J McConkey; G McMahon; L M Ellis
Journal:  Cancer Res       Date:  1999-11-01       Impact factor: 12.701

6.  Antitumor activity of thalidomide in refractory multiple myeloma.

Authors:  S Singhal; J Mehta; R Desikan; D Ayers; P Roberson; P Eddlemon; N Munshi; E Anaissie; C Wilson; M Dhodapkar; J Zeddis; B Barlogie
Journal:  N Engl J Med       Date:  1999-11-18       Impact factor: 91.245

7.  Antiangiogenic treatment enhances photodynamic therapy responsiveness in a mouse mammary carcinoma.

Authors:  A Ferrario; K F von Tiehl; N Rucker; M A Schwarz; P S Gill; C J Gomer
Journal:  Cancer Res       Date:  2000-08-01       Impact factor: 12.701

8.  Role of thymidine phosphorylase activity in the angiogenic effect of platelet derived endothelial cell growth factor/thymidine phosphorylase.

Authors:  K Miyadera; T Sumizawa; M Haraguchi; H Yoshida; W Konstanty; Y Yamada; S Akiyama
Journal:  Cancer Res       Date:  1995-04-15       Impact factor: 12.701

9.  New PPARgamma ligands based on barbituric acid: virtual screening, synthesis and receptor binding studies.

Authors:  Sandeep Sundriyal; Bhoomi Viswanad; Poduri Ramarao; Asit K Chakraborti; Prasad V Bharatam
Journal:  Bioorg Med Chem Lett       Date:  2008-08-14       Impact factor: 2.823

Review 10.  Recent developments in targeting carbonic anhydrase IX for cancer therapeutics.

Authors:  Paul C McDonald; Jean-Yves Winum; Claudiu T Supuran; Shoukat Dedhar
Journal:  Oncotarget       Date:  2012-01
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  23 in total

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2.  A New Class of Homoleptic and Heteroleptic Bis(terpyridine) Iridium(III) Complexes with Strong Photodynamic Therapy Effects.

Authors:  Bingqing Liu; Susan Monro; Zhike Li; Mohammed A Jabed; Daniel Ramirez; Colin G Cameron; Katsuya Colón; John Roque; Svetlana Kilina; Jian Tian; Sherri A McFarland; Wenfang Sun
Journal:  ACS Appl Bio Mater       Date:  2019-06-18

3.  Catch and Release Photosensitizers: Combining Dual-Action Ruthenium Complexes with Protease Inactivation for Targeting Invasive Cancers.

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Journal:  J Am Chem Soc       Date:  2018-10-22       Impact factor: 15.419

Review 4.  Fighting Hypoxia to Improve PDT.

Authors:  Ludivine Larue; Bauyrzhan Myrzakhmetov; Amina Ben-Mihoub; Albert Moussaron; Noémie Thomas; Philippe Arnoux; Francis Baros; Régis Vanderesse; Samir Acherar; Céline Frochot
Journal:  Pharmaceuticals (Basel)       Date:  2019-10-30

5.  Chitosan oligosaccharide decorated liposomes combined with TH302 for photodynamic therapy in triple negative breast cancer.

Authors:  Yinan Ding; Rui Yang; Weiping Yu; Chunmei Hu; Zhiyuan Zhang; Dongfang Liu; Yanli An; Xihui Wang; Chen He; Peidang Liu; Qiusha Tang; Daozhen Chen
Journal:  J Nanobiotechnology       Date:  2021-05-19       Impact factor: 10.435

6.  Oxygen Self-Sufficient Amphiphilic Polypeptide Nanoparticles Encapsulating BODIPY for Potential Near Infrared Imaging-guided Photodynamic Therapy at Low Energy.

Authors:  Le Liu; Zheng Ruan; Pan Yuan; Tuanwei Li; Lifeng Yan
Journal:  Nanotheranostics       Date:  2018-01-01

7.  New application of phthalocyanine molecules: from photodynamic therapy to photothermal therapy by means of structural regulation rather than formation of aggregates.

Authors:  Xingshu Li; Xiao-Hui Peng; Bing-De Zheng; Jilin Tang; Yuanyuan Zhao; Bi-Yuan Zheng; Mei-Rong Ke; Jian-Dong Huang
Journal:  Chem Sci       Date:  2018-01-08       Impact factor: 9.825

8.  Fine-tuning the electronic structure of heavy-atom-free BODIPY photosensitizers for fluorescence imaging and mitochondria-targeted photodynamic therapy.

Authors:  Sujie Qi; Nahyun Kwon; Yubin Yim; Van-Nghia Nguyen; Juyoung Yoon
Journal:  Chem Sci       Date:  2020-03-17       Impact factor: 9.825

9.  Rational design of a "dual lock-and-key" supramolecular photosensitizer based on aromatic nucleophilic substitution for specific and enhanced photodynamic therapy.

Authors:  Kun-Xu Teng; Li-Ya Niu; Yan-Fei Kang; Qing-Zheng Yang
Journal:  Chem Sci       Date:  2020-08-25       Impact factor: 9.825

10.  Cancer radiotheranostics targeting carbonic anhydrase-IX with 111In- and 90Y-labeled ureidosulfonamide scaffold for SPECT imaging and radionuclide-based therapy.

Authors:  Shimpei Iikuni; Masahiro Ono; Hiroyuki Watanabe; Yoichi Shimizu; Kohei Sano; Hideo Saji
Journal:  Theranostics       Date:  2018-04-30       Impact factor: 11.556
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