Domain Interactions of the Mannose 6-Phosphate/Insulin-like Growth Factor II Receptor

Jodi L Kreiling,James C Byrd,Richard G Macdonald

doi:10.1074/jbc.m412971200

Jodi L Kreiling, James C Byrd + Show 1 more

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https://doi.org/10.1074/jbc.m412971200

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Abstract

The mannose 6-phosphate/insulin-like growth factor II receptor (M6P/IGF2R) forms oligomeric structures important for optimal function in binding and internalization of Man-6-P-bearing extracellular ligands as well as lysosomal biogenesis and growth regulation. However, neither the mechanism of inter-receptor interaction nor the dimerization domain has yet been identified. We hypothesized that areas near the ligand binding domains of the receptor would contribute preferentially to oligomerization. Two panels of minireceptors were constructed that involved truncations of either the N- or C-terminal regions of the M6P/IGF2R encompassing deletions of various ligand binding domains. alpha-FLAG or alpha-Myc-based immunoprecipitation assays showed that all of the minireceptors tested were able to associate with a full-length, Myc-tagged M6P/IGF2R (WT-M). In the alpha-FLAG but not alpha-Myc immunoprecipitation assays, the degree of association of a series of C-terminally truncated minireceptors with WT-M showed a positive trend with length of the minireceptor. In contrast, length did not seem to affect the association of the N-terminally truncated minireceptors with WT-M, except that the 12th extracytoplasmic repeat appeared exceptionally important in dimerization in the alpha-FLAG assays. The presence of mutations in the ligand-binding sites of the minireceptors had no effect on their ability to associate with WT-M. Thus, association within the heterodimers was not dependent on the presence of functional ligand binding domains. Heterodimers formed between WT-M and the minireceptors demonstrated high affinity IGF-II and Man-6-P-ligand binding, suggesting a functional association. We conclude that there is no finite M6P/IGF2R dimerization domain, but rather that interactions between dimer partners occur all along the extracytoplasmic region of the receptor.

Highlights

§ Present address: Washington University School of Medicine, Rheumatology Division, 4921 Parkview Place, Campus Box 8045, St
Transient Expression of C-terminally Truncated M6P/IGF2R Minireceptors—In an attempt to map specific regions of the EC domain that would contribute to M6P/IGF2R intersubunit interaction, a series of C-terminally truncated, soluble minireceptors was synthesized that encompassed various regions of the EC domain followed by a FLAG epitope tag (Fig. 1A)
The original objective of this project was to map a dimerization domain within the EC region of the M6P/IGF2R and to test the hypothesis that the ligand binding domains of the receptor are important in the formation of dimeric receptors

Summary

Introduction

§ Present address: Washington University School of Medicine, Rheumatology Division, 4921 Parkview Place, Campus Box 8045, St. Structural analyses of repeat 11 identified the putative IGF-II-binding site in a hydrophobic pocket at the end of a ␤-barrel structure [28] Another member of this class is retinoic acid, a unique ligand for the M6P/IGF2R in that it binds the cytoplasmic region and is thought to function by altering intracellular trafficking of the M6P/IGF2R and its cargo [29]. Olson et al [34] have proposed that the M6P/IGF2R forms distinct structural units for every three repeats of the EC region, producing five tri-repeat units that stack in a back-tofront manner In this model, the IGF-II-binding site is located on the opposite face of the structure relative to the Man-6-Pbinding sites

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