Sorting nexins (SNXs) comprise a family of proteins characterized by the presence of a phox-homology domain, which mediates the association of these proteins with phosphoinositides and recruits them to speci®c membranes or vesicular structures within cells. Although only limited information about SNXs and their functions is available, they seem to be involved in membrane traf®cking and sorting processes by directly binding to target proteins such as certain growth factor receptors. We show that SNX17 binds to the intracellular domain of some members of the low-density lipoprotein receptor (LDLR) family such as LDLR, VLDLR, ApoER2 and LDLR-related protein. SNX17 resides on distinct vesicular structures partially overlapping with endosomal compartments characterized by the presence of EEA1 and rab4. Using rhodamine-labeled LDL, it was possible to demonstrate that during endocytosis, LDL passes through SNX17-positive compartments. Functional studies on the LDLR pathway showed that SNX17 enhances the endocytosis rate of this receptor. Our results identify SNX17 as a novel adaptor protein for LDLR family members and de®ne a novel mechanism for modulation of their endocytic activity.
LR7/8B and ApoER2 are recently discovered members of the low density lipoprotein (LDL) receptor family. Although structurally different, these two proteins are derived from homologous genes in chicken and man by alternative splicing and contain 7 or 8 LDL receptor ligand-binding repeats. Here we present the cDNA for ApoER2 cloned from mouse brain and describe splice variants in the ligand binding domain of this protein, which are distinct from those present in man and chicken. The cloned cDNA is coding for a receptor with only five LDL receptor ligand-binding repeats, i.e. comprising repeats 1-3, 7, and 8. Reverse transcriptase-polymerase chain reaction analysis of mRNA from murine brain revealed the existence of two additional transcripts. One is lacking repeat 8, and in the other repeat 8 is substituted for by a 13-amino acid insertion with a consensus site for furin cleavage arising from an additional small exon present in the murine gene. None of the transcripts in the mouse, however, contain repeats 4-6. In murine placenta only the form containing repeats 1-3 and 7 and the furin cleavage site is detectable. Analysis of the corresponding region of the murine gene showed the existence of 6 exons coding for a total of 8 ligand binding repeats, with one exon encoding repeats 4-6. Exon trapping experiments demonstrated that this exon is constitutively spliced out in all murine transcripts. Thus, the murine ApoER2 gene codes for receptor variants harboring either 4 or 5 binding repeats only. Recombinant expression of the 5-repeat and 4-repeat variants showed that repeats 1-3, 7, and 8 are sufficient for binding of beta-very low density lipoprotein and reelin, but not for recognition of alpha(2)-macroglobulin, which binds to the avian homologue of ApoER2 harboring 8 ligand binding repeats.
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