Herpes Simplex Virus Type 1 Preferentially Targets Human Colon Carcinoma: Role of Extracellular Matrix

Overview

Journal J Virol

Publisher American Society for Microbiology

Date 2007 Nov 6

PMID 17977977

Citations 23

Authors

Dror Kolodkin-Gal

Gideon Zamir

Yair Edden

Eli Pikarsky

Alon Pikarsky

Hillel Haim

Yosef S Haviv

Amos Panet

Affiliations

Soon will be listed here.

Abstract

Viral therapy of cancer (viral oncolysis) is dependent on selective destruction of the tumor tissue compared with healthy tissues. Several factors, including receptor expression, extracellular components, and intracellular mechanisms, may influence viral oncolysis. In the present work, we studied the potential oncolytic activity of herpes simplex virus type 1 (HSV-1), using an organ culture system derived from colon carcinoma and healthy colon tissues of mouse and human origin. HSV-1 infected normal colons ex vivo at a very low efficiency, in contrast to high-efficiency infection of colon carcinoma tissue. In contrast, adenoviral and lentiviral vectors infected both tissues equally well. To investigate the mechanisms underlying the preferential affinity of HSV-1 for the carcinoma tissue, intracellular and extracellular factors were investigated. Two extracellular components, collagen and mucin molecules, were found to restrict HSV-1 infectivity in the healthy colon. The mucin layer of the healthy colon binds to HSV-1 and thereby blocks viral interaction with the epithelial cells of the tissue. In contrast, colon carcinomas express small amounts of collagen and mucin molecules and are thus permissive to HSV-1 infection. In agreement with the ex vivo system, HSV-1 injected into a mouse colon carcinoma in vivo significantly reduced the volume of the tumor. In conclusion, we describe a novel mechanism of viral selectivity for malignant tissues that is based on variance of the extracellular matrix between tumor and healthy tissues. These insights may facilitate new approaches to the application of HSV-1 as an oncolytic virus.

Citing Articles

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Oncolytic virotherapy in cancer treatment: challenges and optimization prospects.

Chen L, Zuo M, Zhou Q, Wang Y Front Immunol. 2024; 14:1308890.

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Targeting Persistent Biofilm Infections: Reconsidering the Topography of the Infection Site during Model Selection.

Kolodkin-Gal I, Cohen-Cymberknoh M, Zamir G, Tsesis I, Rosen E Microorganisms. 2022; 10(6).

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Calcium carbonate mineralization is essential for biofilm formation and lung colonization.

Cohen-Cymberknoh M, Kolodkin-Gal D, Keren-Paz A, Peretz S, Brumfeld V, Kapishnikov S iScience. 2022; 25(5):104234.

PMID: 35521519 PMC: 9062676. DOI: 10.1016/j.isci.2022.104234.

Identification of a Four-lncRNA Prognostic Signature for Colon Cancer Based on Genome Instability.

Yun D, Yang Z J Oncol. 2021; 2021:7408893.

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