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Dileucine Motif (dileucine + motif)

Distribution by Scientific Domains
Life Sciences75%

Selected Abstracts

C-terminal 37 residues of LRP promote the amyloidogenic processing of APP independent of FE65

JOURNAL OF CELLULAR AND MOLECULAR MEDICINE, Issue 6b 2008
Madepalli K. Lakshmana
Abstract The major defining pathological hallmark of Alzheimer's disease (AD) is the accumulation of amyloid , protein (A,), a small peptide derived from ,- and ,-secretase cleavages of the amyloid precursor protein (APP). Recent studies have shown that the Low-density lipoprotein receptor-related protein (LRP) plays a pivotal role in the trafficking of APP and generation of A,. In particular, we recently showed that the soluble cytoplasmic tail of LRP (LRP-ST) without a membrane tether was sufficient to promote A, generation. In this study, we demonstrate that the last 37 residues of LRP cytoplasmic tail (LRP-C37) lacking the NPxY motifs and FE65 binding mediate the core pro-amyloidogenic activity of LRP-ST. Moreover, we show that the conserved dileucine motif within the LRP-C37 region is a key determinant of its A, promoting activity. Finally, results from a yeast two-hybrid screen using LRP-C37 region as bait reveal four new LRP-binding proteins implicated in intracellular signalling and membrane protein trafficking. Our findings indicate that the LRP-C37 sequence represents a new protein-binding domain that may be useful as a therapeutic target and tool to lower A, generation in AD. [source]

Constitutive high-affinity choline transporter endocytosis is determined by a carboxyl-terminal tail dileucine motif

JOURNAL OF NEUROCHEMISTRY, Issue 1 2005
Fabiola M. Ribeiro
Abstract Maintenance of acetylcholine synthesis depends on the effective functioning of a high-affinity sodium-dependent choline transporter (CHT1). Recent studies have shown that this transporter is predominantly localized inside the cell, unlike other neurotransmitter transporters, suggesting that the trafficking of CHT1 to and from the plasma membrane may play a crucial role in regulating choline uptake. Here we found that CHT1 is rapidly and constitutively internalized in clathrin-coated vesicles to Rab5-positive early endosomes. CHT1 internalization is controlled by an atypical carboxyl-terminal dileucine-like motif (L531, V532) which, upon replacement by alanine residues, blocks CHT1 internalization in both human embryonic kidney 293 cells and primary cortical neurons and results in both increased CHT1 cell surface expression and choline transport activity. Perturbation of clathrin-mediated endocytosis with dynamin-I K44A increases cell surface expression and transport activity to a similar extent as mutating the dileucine motif, suggesting that we have identified the motif responsible for constitutive CHT1 internalization. Based on the observation that the localization of CHT1 to the plasma membrane is transient, we propose that acetylcholine synthesis may be influenced by processes that lead to the attenuation of constitutive CHT1 endocytosis. [source]

Study of the mouse sortilin gene: Effects of its transient silencing by RNA interference in TM4 sertoli cells

MOLECULAR REPRODUCTION & DEVELOPMENT, Issue 4 2004
Jibin Zeng
Abstract Using databases of the mouse genome in combination with a sequence deduced from a mouse sortilin cDNA originated in our laboratory, we found the sortilin gene to map to a region of chromosome 3. The mouse sortilin gene contains 19 short exons separated by introns of various sizes. The study elucidated the exon-intron boundaries. Some introns extend over more than 24 kb. In the cytoplasmic domain of the translation product, we found a dileucine motif and three other motifs known to constitute the active sorting signal of the mannose 6-phosphate receptor (M6P-R). We also tested the hypothesis that sortilin is involved in the sorting of prosaposin (SGP-1) to the lysosomes. Prosaposin was initially identified in Sertoli cells, found in large amounts in the lysosomal compartment and implicated in the degradation of residual bodies released by the spermatids during spermiation. Interestingly, the targeting of prosaposin to the lysosomes is independent of the M6P-R. This investigation demonstrated that sortilin was required for the trafficking of prosaposin to the lysosomes in TM4 cells. The requirement of sortilin was shown using a siRNA probe to block the translation of sortilin mRNA. Sortilin-deficient cells were not able to route prosaposin to the lysosomal compartment but continue to transport cathepsin B, since this hydrolase uses the M6P-R to be routed to the lysosomes. These results indicate that sortilin appears to be involved in the lysosomal trafficking of prosaposin. Mol. Reprod. Dev. 68: 469,475, 2004. © 2004 Wiley-Liss, Inc. [source]