C 2021

Migration Stimulating Factor (MSF): Its Role in the Tumour Microenvironment

SCHOR, A. M., A. M. WOOLSTON, Kateřina KAŇKOVÁ, K. HARADA, L. E. ALJORANI et. al.

Basic information

Original name

Migration Stimulating Factor (MSF): Its Role in the Tumour Microenvironment

Authors

SCHOR, A. M., A. M. WOOLSTON, Kateřina KAŇKOVÁ (203 Czech Republic, belonging to the institution), K. HARADA, L. E. ALJORANI, S. PERRIER, P. A. FELTS, R. P. KEATCH and S. L. SCHOR

Edition

Neuveden, Tumor Microenvironment: Novel Concepts, p. 351-397, 47 pp. Advances in Experimental Medicine and Biology, Volume 1329, 2021

Publisher

Springer

Other information

Language

English

Type of outcome

Kapitola resp. kapitoly v odborné knize

Field of Study

30109 Pathology

Country of publisher

Switzerland

Confidentiality degree

není předmětem státního či obchodního tajemství

Publication form

printed version "print"

References:

URL

RIV identification code

RIV/00216224:14110/21:00123828

Organization unit

Faculty of Medicine

ISBN

978-3-030-73118-2

DOI

http://dx.doi.org/10.1007/978-3-030-73119-9_18

UT WoS

000753882600019

Keywords in English

Migration Stimulating Factor (MSF); Fibronectin isoforms; Oncofoetal protein; Cancer-associated fibroblasts (CAF); Sprouting (angiogenic) endothelial cells; Tumour cells; Macrophages IGD peptides; TGFβ1; NGAL; IGFBP-7; Cell migration; Angiogenesis

Tags

rivok, topvydavatel

Tags

International impact, Reviewed
Změněno: 17/5/2022 12:54, Mgr. Tereza Miškechová

Abstract

V originále

Migration Stimulating Factor (MSF) is a 70 kDa truncated isoform of fibronectin (FN); its mRNA is generated from the FN gene by an unusual two-stage processing. Unlike full-length FN, MSF is not a matrix molecule but a soluble protein which displays cytokine-like activities not displayed by any other FN isoform due to steric hindrance. There are two isoforms of MSF; these are referred to as MSF+aa and MSF-aa, while the term MSF is used to include both. MSF was first identified as a motogen secreted by foetal and cancer-associated fibroblasts in tissue culture. It is also produced by sprouting (angiogenic) endothelial cells, tumour cells and activated macrophages. Keratinocytes and resting endothelial cells secrete inhibitors of MSF that have been identified as NGAL and IGFBP-7, respectively. MSF+aa and MSF-aa show distinct functionality in that only MSF+aa is inhibited by NGAL. MSF is present in 70–80% of all tumours examined, expressed by the tumour cells as well as by fibroblasts, endothelial cells and macrophages in the tumour microenvironment (TME). High MSF expression is associated with tumour progression and poor prognosis in all tumours examined, including breast carcinomas, non-small cell lung cancer (NSCLC), salivary gland tumours (SGT) and oral squamous cell carcinomas (OSCC). Epithelial and stromal MSF carry independent prognostic value. MSF is also expressed systemically in cancer patients, being detected in serum and produced by fibroblast from distal uninvolved skin. MSF-aa is the main isoform associated with cancer, whereas MSF+aa may be expressed by both normal and malignant tissues. The expression of MSF is not invariant; it may be switched on and off in a reversible manner, which requires precise interactions between soluble factors present in the TME and the extracellular matrix in contact with the cells. MSF expression in fibroblasts may be switched on by a transient exposure to several molecules, including TGFβ1 and MSF itself, indicating an auto-inductive capacity. Acting by both paracrine and autocrine mechanisms, MSF stimulates cell migration/invasion, induces angiogenesis and cell differentiation and alters the matrix and cellular composition of the TME. MSF is also a survival factor for sprouting endothelial cells. IGD tri- and tetra-peptides mimic the motogenic and angiogenic activities of MSF, with both molecules inhibiting AKT activity and requiring αvβ3 functionality. MSF is active at unprecedently low concentrations in a manner which is target cell specific. Thus, different bioactive motifs and extracellular matrix requirements apply to fibroblasts, endothelial cells and tumour cells. Unlike other motogenic and angiogenic factors, MSF does not affect cell proliferation but it stimulates tumour growth through its angiogenic effect and downstream mechanisms. The epithelial-stromal pattern of expression and range of bioactivities displayed puts MSF in the unique position of potentially promoting tumour progression from both the “seed” and the “soil” perspectives.
Displayed: 10/11/2024 20:35