Synthetic glycopeptide substrates for receptor-mediated endocytosis by macrophages.

Robbins, James C.; Lam, Mark H. C.; Tripp, Catherine S.; Bugianesi, Rossana; Ponpipom, Mitree M.; Shen, T. Y.

doi:10.1073/pnas.78.12.7294

Cited by 33 publications

(23 citation statements)

References 39 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Since preliminary binding studies revealed that the affinity of 4-aminophenyl-␣-D-mannopyranoside is only slightly higher than that of ␣-D-mannose (K i (app) ϭ 1.8 mM, log(IC 50 ) ϭ Ϫ2.48 Ϯ 0.01; data not shown), we assume this to be unlikely. An alternative explanation is that the (p-hydroxyanilino)carbamide spacer is longer (2 Å) than the thioproprionyl spacer used by Robbins et al (29). Recent studies by Biessen et al (31) have already emphasized the relevance of optimal spacing of terminal glycosides to achieve avid recognition by a comparable eukaryotic lectin, the asialoglycoprotein receptor.…”

Section: Discussionmentioning

confidence: 96%

“…Oshimi et al (28) demonstrated that the affinity of tris(hydroxymethyl)-based mannosides was only slightly higher than that of bi-and monosubstituted analogues, which was attributed to the suboptimal valency and spacing of the terminal mannosyl groups (ϳ9 Å) within the mannose clusters. The di-, tri-, and tetramannosides synthesized by Robbins et al (29) displayed higher, yet micromolar, affinities for the mannose receptor. Since the latter mannosides contained the same oligolysine backbone as our mannosides, their lower affinity is probably caused by differences in the chemical nature and the length of the spacers connecting the terminal 4.…”

Section: Discussionmentioning

confidence: 99%

“…Competition studies of 125 I-t-PA binding to endothelial liver cells confirmed the nanomolar affinity of M 6 L 5 . Previous efforts to synthesize low molecular weight ligands for the mannose receptor yielded compounds with 1000-fold lower, micromolar affinities for the mannose receptor (15,28,29). Oshimi et al (28) demonstrated that the affinity of tris(hydroxymethyl)-based mannosides was only slightly higher than that of bi-and monosubstituted analogues, which was attributed to the suboptimal valency and spacing of the terminal mannosyl groups (ϳ9 Å) within the mannose clusters.…”

Section: Discussionmentioning

confidence: 99%

See 2 more Smart Citations

Lysine-based Cluster Mannosides That Inhibit Ligand Binding to the Human Mannose Receptor at Nanomolar Concentration

Biessen

Noorman²,

Teijlingen

et al. 1996

Journal of Biological Chemistry

View full text Add to dashboard Cite

In search of synthetic high affinity ligands for the mannose receptor, we synthesized a series of lysinebased oligomannosides containing two (M 2 L) to six (M 6 L 5 ) terminal ␣-D-mannose groups that are connected with the backbone by flexible elongated spacers (16 Å). The synthesized cluster mannosides were all able to displace binding of biotinylated ribonuclease B and tissuetype plasminogen activator to isolated human mannose receptor. The affinity of these cluster mannosides for the mannose receptor was continuously enhanced from 18 -23 M to 0.5-2.6 nM, with mannose valencies increasing from two to six. On average, expansion of the cluster mannoside with an additional ␣-D-mannose group resulted in a 10-fold increase in its affinity for the mannose receptor. M 3 L 2 to M 6 L 5 displayed negative cooperative inhibition of ligand binding to the mannose receptor, suggesting that binding of these mannosides involves multiple binding sites. The nanomolar affinity of the most potent ligand, the hexamannoside M 6 L 5 makes it the most potent synthetic cluster mannoside for the mannose receptor yet developed. As a result of its high affinity and accessible synthesis, M 6 L 5 not only is a powerful tool to study the mechanism of ligand binding by the mannose receptor, but it is also a promising targeting device to accomplish cell-specific delivery of genes and drugs to liver endothelial cells or macrophages in bone marrow, lungs, spleen, and atherosclerotic plaques.The mannose receptor is a 175-kDa membrane-associated protein that is localized on sinusoidal liver cells, peripheral and bone marrow macrophages, and dendritic cells (1-4). It recognizes and internalizes mannosylated polysaccharides from pathological microorganisms (5), tumor cells (6), and yeast cells (7) and glycoproteins like type-I procollagen (8), tissue-type plasminogen activator (9), or various lysosomal enzymes (10). As such, the mannose receptor participates in the nonimmune host-defense system. In addition, the macrophage receptor is implicated in major histocompatability complex-mediated antigen presentation by dendritic cells (11).The cDNA of the mannose receptor has been sequenced by Taylor et al. (12) and codes for five types of domains (13): an N-terminal cysteine-rich domain, a transmembrane domain, a fibronectin type II-like domain, a domain composed of eight strongly homologous repeats (the so-called carbohydrate recognition domains or CRDs)1 and a C-terminal cytoplasmic tail. Taylor and Drickamer (13, 14) have established that the CRDs are involved in ligand binding. Recent structure-function studies of recombinant truncated forms of the mannose receptor provided new insight into the mechanism of ligand binding by the mannose receptor (13,14). On basis of these results, it was proposed that CRD4 is the only CRD to display a monosaccharide specificity characteristic for the mannose receptor (15). CRD4 and CRD5 appear to be required for high affinity binding of high mannose-type glycoproteins and mannosylated bovine serum albumin (BSA). B...

show abstract

Section: Discussionmentioning

confidence: 96%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Lysine-based Cluster Mannosides That Inhibit Ligand Binding to the Human Mannose Receptor at Nanomolar Concentration

Biessen

Noorman²,

Teijlingen

et al. 1996

Journal of Biological Chemistry

View full text Add to dashboard Cite

show abstract

“…Several glycosylated lysine and lysine containing peptides are reported in the literature [19][20][21] and more specifically, the interaction of 3 and its galactose analog with macrophages and HepG2 cells has been described [22,23]. This background provided us an impetus to investigate self-assembly properties of mannosylated 3.…”

Section: Resultsmentioning

confidence: 96%

Mannosylated self-assembled structures for molecular confinement and gene delivery applications

Gour

Purohit

Verma

et al. 2009

Biochemical and Biophysical Research Communications

View full text Add to dashboard Cite

“…However, the seminal discovery of the mannose-binding lectin of the macrophage by Philip Stahl et al109 at Washington University, St Louis, MI, was the critical breakthrough. This revelation focused attention on delivery of proteins to be explored for therapeutic purposes in Gaucher disease – in which the prime cellular target is the eponymous macrophage 110. In vivo and laboratory studies also carried out at this time in St Louis by William Sly and colleagues (see Achord et al111) with different glycoforms of acid β-glucuronidase, which is deficient in the lysosomal disease mucopolysaccharidosis type 7 (Sly disease), led to the practical realization that the mannose/lectin receptor could be utilized efficiently to target human glucocerebrosidase to macrophages in Gaucher disease after modification of its carbohydrate residues.…”

Section: Easy Concepts and Trialsmentioning

confidence: 99%

Imiglucerase in the treatment of Gaucher disease: a history and perspective

Deegan

Cox

2012

DDDT

View full text Add to dashboard Cite

The scientific and therapeutic development of imiglucerase (Cerezyme®) by the Genzyme Corporation is a paradigm case for a critical examination of current trends in biotechnology. In this article the authors argue that contemporary interest in treatments for rare diseases by major pharmaceutical companies stems in large part from an exception among rarities: the astonishing commercial success of Cerezyme. The fortunes of the Genzyme Corporation, latterly acquired by global giant Sanofi SA, were founded on the evolution of a blockbuster therapy for a single but, as it turns out, propitious ultra-orphan disorder: Gaucher disease.

show abstract

Synthetic glycopeptide substrates for receptor-mediated endocytosis by macrophages.

Cited by 33 publications

References 39 publications

Lysine-based Cluster Mannosides That Inhibit Ligand Binding to the Human Mannose Receptor at Nanomolar Concentration

Lysine-based Cluster Mannosides That Inhibit Ligand Binding to the Human Mannose Receptor at Nanomolar Concentration

Mannosylated self-assembled structures for molecular confinement and gene delivery applications

Imiglucerase in the treatment of Gaucher disease: a history and perspective

Contact Info

Product

Resources

About