Vascular Normalization in Rgs5-deficient Tumours Promotes Immune Destruction

Overview

Journal Nature

Specialty Science

Date 2008 Apr 18

PMID 18418378

Citations 265

Authors

Juliana Hamzah

Manfred Jugold

Fabian Kiessling

Paul Rigby

Mitali Manzur

Hugo H Marti

Tamer Rabie

Sylvia Kaden

Hermann-Josef Grone

Gunter J Hammerling

Bernd Arnold

Ruth Ganss

Affiliations

Soon will be listed here.

Abstract

The vasculature of solid tumours is morphologically aberrant and characterized by dilated and fragile vessels, intensive vessel sprouting and loss of hierarchical architecture. Constant vessel remodelling leads to spontaneous haemorrhages and increased interstitial fluid pressure in the tumour environment. Tumour-related angiogenesis supports tumour growth and is also a major obstacle for successful immune therapy as it prevents migration of immune effector cells into established tumour parenchyma. The molecular mechanisms for these angiogenic alterations are largely unknown. Here we identify regulator of G-protein signalling 5 (Rgs5) as a master gene responsible for the abnormal tumour vascular morphology in mice. Loss of Rgs5 results in pericyte maturation, vascular normalization and consequent marked reductions in tumour hypoxia and vessel leakiness. These vascular and intratumoral changes enhance influx of immune effector cells into tumour parenchyma and markedly prolong survival of tumour-bearing mice. This is the first demonstration, to our knowledge, of reduced tumour angiogenesis and improved immune therapeutic outcome on loss of a vascular gene function and establishes a previously unrecognized role of G-protein signalling in tumour angiogenesis.

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