Mannose-6-phosphate enhances cross-linking efficiency between insulin-like growth factor-II (IGF-II) and IGF-II/Mannose-6-phosphate receptors in membranes

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Abstract

Endogenous and exogenous phosphomannosyl ligands inhibit binding of insulin-like growth factor-II (IGF-II) to the IGF-II/mannose-6-phosphate receptor (IGF-II/Man-6-P receptor). In the present study, the mechanism of this antagonism was examined using a [125I]IGF-II cross-linking assay with disuccinimidyl suberate in cell membranes. Treatment with 5 mM Man-6-P enhanced [125I]IGF-II cross-linking to the receptor. The magnitude of the Man-6-P enhancement differed depending on the source of the membranes, ranging from a 30% increase in JEG-3 human choriocarcinoma up to a 560% increase in B16-Fl mouse melanoma. Man-6-P stimulated [125I]IGF-II-receptor cross-linking in H-35 hepatoma membranes by about 80%, even at concentrations of labeled IGF-II (>10 nM) that nearly saturated the receptors. Thus, in addition to its effect on IGF-II-binding affinity, Man-6-P caused a 1.5-to 2-fold increase in cross-linking efficiency within the IGF-II-receptor complex. Furthermore, Man-6-P enhanced [125I]IGF-II cross-linking to the H-35 receptor by a constant (-80%) increment 1) when the cross-linking reaction was conducted in buffers of different pH over the range 6.8-8.0, or 2) using cross-linking agents differing in spacer arm length from 6.4-16.1 Ȧ. Washing membranes before assay with either Man-6-P (pH 7.4) or 0.5 M NaCl (pH 4.5) reduced the subsequent Man-6-P enhancement of [125I]IGF-II-receptor cross-linking, suggesting that this phenomenon was actually due to displacement of inhibitory phosphomannosyl ligands bound endogenously to the Man-6-P sites of the receptor. In support of this hypothesis, Man-6-P produced a minimal (814%) enhancement of [125I]IGF-II-receptor cross-linking in membranes from I-cell fibroblasts lacking such phosphomannosyl ligands. Thus, phosphomannosyl ligands bound to the IGF-II/Man-6-P receptor decrease both IGF-II-binding affinity and IGF-II-receptor cross-linking efficiency. Membrane-associated receptors appear to exist in experimentally and perhaps functionally distinct populations, depending on occupancy of the Man-6-P-binding sites.

Original languageEnglish (US)
Pages (from-to)413-421
Number of pages9
JournalEndocrinology
Volume128
Issue number1
DOIs
StatePublished - Jan 1 1991

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IGF Type 2 Receptor
Insulin-Like Growth Factor II
Membranes
Ligands
mannose-6-phosphate
Cell Membrane
Choriocarcinoma
Cross Reactions
Hepatocellular Carcinoma
Melanoma
Buffers

ASJC Scopus subject areas

  • Endocrinology

Cite this

@article{20e4157cb164491dba0d5738afc43fa5,
title = "Mannose-6-phosphate enhances cross-linking efficiency between insulin-like growth factor-II (IGF-II) and IGF-II/Mannose-6-phosphate receptors in membranes",
abstract = "Endogenous and exogenous phosphomannosyl ligands inhibit binding of insulin-like growth factor-II (IGF-II) to the IGF-II/mannose-6-phosphate receptor (IGF-II/Man-6-P receptor). In the present study, the mechanism of this antagonism was examined using a [125I]IGF-II cross-linking assay with disuccinimidyl suberate in cell membranes. Treatment with 5 mM Man-6-P enhanced [125I]IGF-II cross-linking to the receptor. The magnitude of the Man-6-P enhancement differed depending on the source of the membranes, ranging from a 30{\%} increase in JEG-3 human choriocarcinoma up to a 560{\%} increase in B16-Fl mouse melanoma. Man-6-P stimulated [125I]IGF-II-receptor cross-linking in H-35 hepatoma membranes by about 80{\%}, even at concentrations of labeled IGF-II (>10 nM) that nearly saturated the receptors. Thus, in addition to its effect on IGF-II-binding affinity, Man-6-P caused a 1.5-to 2-fold increase in cross-linking efficiency within the IGF-II-receptor complex. Furthermore, Man-6-P enhanced [125I]IGF-II cross-linking to the H-35 receptor by a constant (-80{\%}) increment 1) when the cross-linking reaction was conducted in buffers of different pH over the range 6.8-8.0, or 2) using cross-linking agents differing in spacer arm length from 6.4-16.1 Ȧ. Washing membranes before assay with either Man-6-P (pH 7.4) or 0.5 M NaCl (pH 4.5) reduced the subsequent Man-6-P enhancement of [125I]IGF-II-receptor cross-linking, suggesting that this phenomenon was actually due to displacement of inhibitory phosphomannosyl ligands bound endogenously to the Man-6-P sites of the receptor. In support of this hypothesis, Man-6-P produced a minimal (814{\%}) enhancement of [125I]IGF-II-receptor cross-linking in membranes from I-cell fibroblasts lacking such phosphomannosyl ligands. Thus, phosphomannosyl ligands bound to the IGF-II/Man-6-P receptor decrease both IGF-II-binding affinity and IGF-II-receptor cross-linking efficiency. Membrane-associated receptors appear to exist in experimentally and perhaps functionally distinct populations, depending on occupancy of the Man-6-P-binding sites.",
author = "MacDonald, {Richard G}",
year = "1991",
month = "1",
day = "1",
doi = "10.1210/endo-128-1-413",
language = "English (US)",
volume = "128",
pages = "413--421",
journal = "Endocrinology",
issn = "0013-7227",
publisher = "The Endocrine Society",
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TY - JOUR

T1 - Mannose-6-phosphate enhances cross-linking efficiency between insulin-like growth factor-II (IGF-II) and IGF-II/Mannose-6-phosphate receptors in membranes

AU - MacDonald, Richard G

PY - 1991/1/1

Y1 - 1991/1/1

N2 - Endogenous and exogenous phosphomannosyl ligands inhibit binding of insulin-like growth factor-II (IGF-II) to the IGF-II/mannose-6-phosphate receptor (IGF-II/Man-6-P receptor). In the present study, the mechanism of this antagonism was examined using a [125I]IGF-II cross-linking assay with disuccinimidyl suberate in cell membranes. Treatment with 5 mM Man-6-P enhanced [125I]IGF-II cross-linking to the receptor. The magnitude of the Man-6-P enhancement differed depending on the source of the membranes, ranging from a 30% increase in JEG-3 human choriocarcinoma up to a 560% increase in B16-Fl mouse melanoma. Man-6-P stimulated [125I]IGF-II-receptor cross-linking in H-35 hepatoma membranes by about 80%, even at concentrations of labeled IGF-II (>10 nM) that nearly saturated the receptors. Thus, in addition to its effect on IGF-II-binding affinity, Man-6-P caused a 1.5-to 2-fold increase in cross-linking efficiency within the IGF-II-receptor complex. Furthermore, Man-6-P enhanced [125I]IGF-II cross-linking to the H-35 receptor by a constant (-80%) increment 1) when the cross-linking reaction was conducted in buffers of different pH over the range 6.8-8.0, or 2) using cross-linking agents differing in spacer arm length from 6.4-16.1 Ȧ. Washing membranes before assay with either Man-6-P (pH 7.4) or 0.5 M NaCl (pH 4.5) reduced the subsequent Man-6-P enhancement of [125I]IGF-II-receptor cross-linking, suggesting that this phenomenon was actually due to displacement of inhibitory phosphomannosyl ligands bound endogenously to the Man-6-P sites of the receptor. In support of this hypothesis, Man-6-P produced a minimal (814%) enhancement of [125I]IGF-II-receptor cross-linking in membranes from I-cell fibroblasts lacking such phosphomannosyl ligands. Thus, phosphomannosyl ligands bound to the IGF-II/Man-6-P receptor decrease both IGF-II-binding affinity and IGF-II-receptor cross-linking efficiency. Membrane-associated receptors appear to exist in experimentally and perhaps functionally distinct populations, depending on occupancy of the Man-6-P-binding sites.

AB - Endogenous and exogenous phosphomannosyl ligands inhibit binding of insulin-like growth factor-II (IGF-II) to the IGF-II/mannose-6-phosphate receptor (IGF-II/Man-6-P receptor). In the present study, the mechanism of this antagonism was examined using a [125I]IGF-II cross-linking assay with disuccinimidyl suberate in cell membranes. Treatment with 5 mM Man-6-P enhanced [125I]IGF-II cross-linking to the receptor. The magnitude of the Man-6-P enhancement differed depending on the source of the membranes, ranging from a 30% increase in JEG-3 human choriocarcinoma up to a 560% increase in B16-Fl mouse melanoma. Man-6-P stimulated [125I]IGF-II-receptor cross-linking in H-35 hepatoma membranes by about 80%, even at concentrations of labeled IGF-II (>10 nM) that nearly saturated the receptors. Thus, in addition to its effect on IGF-II-binding affinity, Man-6-P caused a 1.5-to 2-fold increase in cross-linking efficiency within the IGF-II-receptor complex. Furthermore, Man-6-P enhanced [125I]IGF-II cross-linking to the H-35 receptor by a constant (-80%) increment 1) when the cross-linking reaction was conducted in buffers of different pH over the range 6.8-8.0, or 2) using cross-linking agents differing in spacer arm length from 6.4-16.1 Ȧ. Washing membranes before assay with either Man-6-P (pH 7.4) or 0.5 M NaCl (pH 4.5) reduced the subsequent Man-6-P enhancement of [125I]IGF-II-receptor cross-linking, suggesting that this phenomenon was actually due to displacement of inhibitory phosphomannosyl ligands bound endogenously to the Man-6-P sites of the receptor. In support of this hypothesis, Man-6-P produced a minimal (814%) enhancement of [125I]IGF-II-receptor cross-linking in membranes from I-cell fibroblasts lacking such phosphomannosyl ligands. Thus, phosphomannosyl ligands bound to the IGF-II/Man-6-P receptor decrease both IGF-II-binding affinity and IGF-II-receptor cross-linking efficiency. Membrane-associated receptors appear to exist in experimentally and perhaps functionally distinct populations, depending on occupancy of the Man-6-P-binding sites.

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