Topical pH Sensing NIR Fluorophores for Intraoperative Imaging and Surgery of Disseminated Ovarian Cancer

Shinya Yokomizo; Maged Henary; Emmanuel R. Buabeng; Takeshi Fukuda; Hailey Monaco; Yoonji Baek; Sophia Manganiello; Haoran Wang; Jo Kubota; Amy Daniel Ulumben; Xiangmin Lv; Cheng Wang; Kazumasa Inoue; Masahiro Fukushi; Homan Kang; Kai Bao; Satoshi Kashiwagi; Hak Soo Choi

doi:10.1002/advs.202201416

Advanced Science (Jul 2022)

Topical pH Sensing NIR Fluorophores for Intraoperative Imaging and Surgery of Disseminated Ovarian Cancer

Shinya Yokomizo,
Maged Henary,
Emmanuel R. Buabeng,
Takeshi Fukuda,
Hailey Monaco,
Yoonji Baek,
Sophia Manganiello,
Haoran Wang,
Jo Kubota,
Amy Daniel Ulumben,
Xiangmin Lv,
Cheng Wang,
Kazumasa Inoue,
Masahiro Fukushi,
Homan Kang,
Kai Bao,
Satoshi Kashiwagi,
Hak Soo Choi

Affiliations

Shinya Yokomizo: Gordon Center for Medical Imaging Department of Radiology Massachusetts General Hospital and Harvard Medical School Boston MA 02114 USA
Maged Henary: Department of Chemistry and Center for Diagnostics and Therapeutics Georgia State University 100 Piedmont Avenue SE Atlanta GA 30303 USA
Emmanuel R. Buabeng: Department of Chemistry and Center for Diagnostics and Therapeutics Georgia State University 100 Piedmont Avenue SE Atlanta GA 30303 USA
Takeshi Fukuda: Gordon Center for Medical Imaging Department of Radiology Massachusetts General Hospital and Harvard Medical School Boston MA 02114 USA
Hailey Monaco: Gordon Center for Medical Imaging Department of Radiology Massachusetts General Hospital and Harvard Medical School Boston MA 02114 USA
Yoonji Baek: Gordon Center for Medical Imaging Department of Radiology Massachusetts General Hospital and Harvard Medical School Boston MA 02114 USA
Sophia Manganiello: Gordon Center for Medical Imaging Department of Radiology Massachusetts General Hospital and Harvard Medical School Boston MA 02114 USA
Haoran Wang: Gordon Center for Medical Imaging Department of Radiology Massachusetts General Hospital and Harvard Medical School Boston MA 02114 USA
Jo Kubota: Gordon Center for Medical Imaging Department of Radiology Massachusetts General Hospital and Harvard Medical School Boston MA 02114 USA
Amy Daniel Ulumben: Gordon Center for Medical Imaging Department of Radiology Massachusetts General Hospital and Harvard Medical School Boston MA 02114 USA
Xiangmin Lv: Vincent Center for Reproductive Biology Vincent Department of Obstetrics and Gynecology Massachusetts General Hospital Boston MA 02114 USA
Cheng Wang: Vincent Center for Reproductive Biology Vincent Department of Obstetrics and Gynecology Massachusetts General Hospital Boston MA 02114 USA
Kazumasa Inoue: Department of Radiological Sciences Tokyo Metropolitan University 7‐2‐10 Higashi‐Ogu Arakawa Tokyo 116–8551 Japan
Masahiro Fukushi: Department of Radiological Sciences Tokyo Metropolitan University 7‐2‐10 Higashi‐Ogu Arakawa Tokyo 116–8551 Japan
Homan Kang: Gordon Center for Medical Imaging Department of Radiology Massachusetts General Hospital and Harvard Medical School Boston MA 02114 USA
Kai Bao: Gordon Center for Medical Imaging Department of Radiology Massachusetts General Hospital and Harvard Medical School Boston MA 02114 USA
Satoshi Kashiwagi: Gordon Center for Medical Imaging Department of Radiology Massachusetts General Hospital and Harvard Medical School Boston MA 02114 USA
Hak Soo Choi: Gordon Center for Medical Imaging Department of Radiology Massachusetts General Hospital and Harvard Medical School Boston MA 02114 USA

DOI: https://doi.org/10.1002/advs.202201416
Journal volume & issue: Vol. 9, no. 20
pp. n/a – n/a

Abstract

Read online

Abstract Fluorescence‐guided surgery (FGS) aids surgeons with real‐time visualization of small cancer foci and borders, which improves surgical and prognostic efficacy of cancer. Despite the steady advances in imaging devices, there is a scarcity of fluorophores available to achieve optimal FGS. Here, 1) a pH‐sensitive near‐infrared fluorophore that exhibits rapid signal changes in acidic tumor microenvironments (TME) caused by the attenuation of intramolecular quenching, 2) the inherent targeting for cancer based on chemical structure (structure inherent targeting, SIT), and 3) mitochondrial and lysosomal retention are reported. After topical application of PH08 on peritoneal tumor regions in ovarian cancer‐bearing mice, a rapid fluorescence increase ( 4 h post‐topical application) are observed, which together allow for the visualization of submillimeter tumors with a high tumor‐to‐background ratio (TBR > 5.0). In addition, PH08 is preferentially transported to cancer cells via organic anion transporter peptides (OATPs) and colocalizes in the mitochondria and lysosomes due to the positive charges, enabling a long retention time during FGS. PH08 not only has a significant impact on surgical and diagnostic applications but also provides an effective and scalable strategy to design therapeutic agents for a wide array of cancers.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

About the journal

Abstract

Keywords