Biochemical Characterization of Individual Human Glycosylated Pro-insulin-like Growth Factor (IGF)-II and Big-IGF-II Isoforms Associated with Cancer

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2012 Nov 21

PMID 23166326

Citations 17

Authors

Sameer A Greenall

John D Bentley

Lesley A Pearce

Judith A Scoble

Lindsay G Sparrow

Nicola A Bartone

Xiaowen Xiao

Robert C Baxter

Leah J Cosgrove

Timothy E Adams

Affiliations

Soon will be listed here.

Abstract

Insulin-like growth factor II (IGF-II) is a major embryonic growth factor belonging to the insulin-like growth factor family, which includes insulin and IGF-I. Its expression in humans is tightly controlled by maternal imprinting, a genetic restraint that is lost in many cancers, resulting in up-regulation of both mature IGF-II mRNA and protein expression. Additionally, increased expression of several longer isoforms of IGF-II, termed "pro" and "big" IGF-II, has been observed. To date, it is ambiguous as to what role these IGF-II isoforms have in initiating and sustaining tumorigenesis and whether they are bioavailable. We have expressed each individual IGF-II isoform in their proper O-glycosylated format and established that all bind to the IGF-I receptor and both insulin receptors A and B, resulting in their activation and subsequent stimulation of fibroblast proliferation. We also confirmed that all isoforms are able to be sequestered into binary complexes with several IGF-binding proteins (IGFBP-2, IGFBP-3, and IGFBP-5). In contrast to this, ternary complex formation with IGFBP-3 or IGFBP-5 and the auxillary protein, acid labile subunit, was severely diminished. Furthermore, big-IGF-II isoforms bound much more weakly to purified ectodomain of the natural IGF-II scavenging receptor, IGF-IIR. IGF-II isoforms thus possess unique biological properties that may enable them to escape normal sequestration avenues and remain bioavailable in vivo to sustain oncogenic signaling.

Citing Articles

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Non-glycosylated IGF2 prohormones are more mitogenic than native IGF2.

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