Pavlos Neophytou scite author profile

A mechanism is described whereby one and the same gene can encode both a receptor protein as well as its specific ligand. Generation of this receptor-ligand partnership is effected by proteolytic cleavage within a specific module located in a membrane resident protein. It is postulated here that the "SEA" module, found in a number of heavily O-linked glycosylated membrane-associated proteins, serves as a site for proteolytic cleavage. The subunits generated by proteolytic cleavage of the SEA module reassociate, and can subsequently elicit a signaling cascade. We hypothesize that all membrane resident proteins containing such a "SEA" module will undergo cleavage, thereby generating a receptor-ligand alliance. This requires that the protein subunits resulting from the proteolytic cleavage reassociate with each other in a highly specific fashion. The same SEA module that serves as the site for proteolytic cleavage, probably also contains the binding sites for reassociation of the resultant two subunits. More than one type of module can function as a site for proteolytic cleavage; this can occur not only in one-pass membrane proteins but also in 7-transmembrane proteins and other membrane-associated proteins. The proposal presented here is likely to have significant practical consequences. It could well lead to the rational design and identification of molecules that, by binding to one of the cleaved partners, will act either as agonists or antagonists, alter signal transduction and, hence, cellular behavior.Keywords: SEA module; mucins; receptors; ligands; signaling; proteolytic cleavageInteractions between ligands and their membrane receptors affect all aspects of cell behavior, be they related to tissue patterning, cell differentiation, cell growth, or cell death.The engagement of a cell surface receptor by its specific ligand(s) initiates a signaling cascade that ultimately culminates in changed patterns of gene expression, thereby altering cellular characteristics. Activation of the membranelocated receptor can be induced by a soluble secreted ligand, a cell-surface-associated ligand resident on either the same cell or a neighboring cell or by an extracellular matrixembedded ligand. Whatever the location of the ligand, in almost all cases, the gene coding for the ligand is distinct

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Population Structure in the Mediterranean Basin: A Y Chromosome Perspective

Capelli

Redhead

Romano

et al. 2005

Annals of Human Genetics

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SummaryThe Mediterranean region has been characterised by a number of pre-historical and historical demographic events whose legacy on the current genetic landscape is still a matter of debate. In order to investigate the degree of population structure across the Mediterranean, we have investigated Y chromosome variation in a large dataset of Mediterranean populations, 11 of which are first described here. Our analyses identify four main clusters in the Mediterranean that can be labelled as North Africa, Arab, Central-East and West Mediterranean. In particular, Near Eastern samples tend to separate according to the presence of Arab Y chromosome lineages, suggesting that the Arab expansion played a major role in shaping the current genetic structuring within the Fertile Crescent.

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Imogen 38: a novel 38-kD islet mitochondrial autoantigen recognized by T cells from a newly diagnosed type 1 diabetic patient.

Arden

Roep²,

Neophytou³

et al. 1996

J. Clin. Invest.

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Cell-mediated autoimmune attack directed against islet proteins of ‫ف‬ 38 kD in size has been associated with type 1 diabetes. A novel murine cDNA encoding an antigen of this size was cloned using a screening procedure based on the proliferative response of a human diabetic T cell clone (1C6) to a recombinant antigen epitope library. Membrane preparations from COS 7 cells transfected with the fulllength 1,267-bp cDNA elicited a proliferative response from the reporter T cells comparable to that of the defined peptide epitope and native insulinoma antigen. In vitro translation and transfection experiments suggested that the protein is initially synthesized as a 44-kD protein and then processed to the native 38-kD form through the proteolytic removal of a 54-aa NH 2 -terminal mitochondrial targeting sequence. Differential centrifugation, Percoll density gradient centrifugation, and immunofluorescence studies confirmed localization of the antigen to mitochondria. Northern blot, Western blot, and 1C6 T cell proliferation assays showed that, although imogen 38 was more highly expressed in ␤ cell than ␣ cell lines, it was also present in other tissues. It is concluded that imogen 38 may be a target for bystander autoimmune attack in diabetes rather than a primary autoantigen. ( J. Clin. Invest. 1996. 97:551-561.)

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Surfactant Protein D Augments Bacterial Association but Attenuates Major Histocompatibility Complex Class II Presentation of Bacterial Antigens

Hansen

Evans

et al. 2007

Am J Respir Cell Mol Biol

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