R. Kage scite author profile

Previously we have been able to restrict the site of covalent attachment of a photolabile and radiolabeled derivative of substance P (SP), p-benzoylphenylalanine8-SP (Bpa8-SP), to residues 178-183 located on the second extracellular loop (E2) of the SP (NK-1) receptor (Boyd, N. D., Kage, R., Dumas, J. J., Krause, J. E., and Leeman, S. E. (1996) Proc. Natl. Acad. Sci. U. S. A. 93, 433-437). To ascertain the specific amino acid in this sequence that serves as the site of covalent attachment for 125I-Bolton-Hunter reagent (BH)-Bpa8-SP, we have employed here a novel solid-phase approach to cyanogen bromide cleavage of the photolabeled receptor followed by mass spectrometric analysis of a purified labeled fragment. SP receptors on transfected Chinese hamster ovary cells were photolabeled with isotopically diluted 125I-BH-Bpa8-SP. A membrane preparation of the photolabeled receptors was adsorbed onto C-18-derivatized silica gel and cleaved with cyanogen bromide. A single radiolabeled fragment containing 63% of the photoincorporated radioactivity was generated and purified by high performance liquid chromatography. Mass spectrometric analysis identified a single molecular ion with a molecular mass of 1751.4 +/- 2, establishing that upon irradiation the bound photoligand forms a covalent link with the methyl group of a methionine residue at the peptide binding site. In view of our previous findings, this methionine is Met-181 on the primary sequence of the SP receptor.

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The peptide binding site of the substance P (NK-1) receptor localized by a photoreactive analogue of substance P: presence of a disulfide bond.

Boyd

Kage

Dumas

et al. 1996

Proc. Natl. Acad. Sci. U.S.A.

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Substance P (SP) is a neuropeptide that mediates multiple physiological responses including transmission of painful stimuli and inflammation via an interaction with a receptor of known primary sequence. To identify the regions of the SP receptor, also termed the NK-1 receptor, involved in peptide recognition, we are using analogues of SP containing the photoreactive amino acid p-benzoyl-Lphenylalanine (Bpa). In the present study, we used radioiodinated Bpa8-SP to covalently label with high efficiency the rat SP receptor expressed in a transfected mammalian cell line. To identify the amino acid residue that serves as the site of covalent attachment, a membrane preparation of labeled receptor was subjected to partial enzymatic cleavage by trypsin. A major digestion product of 22 kDa was identified. Upon reduction with 2-mercaptoethanol the mass of this product decreased to 14 kDa. The 22-kDa tryptic fragment was purified in excellent yield by preparative SDS/PAGE under nonreducing conditions. Subcleavage with Staphylococcus aureus V8 protease and endoproteinase ArgC yielded fragments of 8.2 and 9.0 kDa, respectively. Upon reductive cleavage, the V8 protease fragment decreased to 3.0 kDa while the endoproteinase ArgC fragment decreased to 3.2 kDa. Taking into consideration enzyme specificity, molecular size, determination of the presence or absence of N-glycosylation sites, and recognition by antibodies to specific sequences of the SP receptor, the V8 protease fragment is Thr-173 to Glu-183, while the endoproteinase ArgC fragment is Val-178 to Arg-190. These two fragments share the common sequence ValVal-Cys-Met-Ile-Glu (residues 178-183). The site of covalent attachment of radioiodinated Bpa8-SP is thus restricted to a residue within this overlap sequence. The data presented here also establish that the cysteine residue in this sequence Cys-180, which is positioned in the middle of the second extracellular loop, participates in a disulfide bond that links the first and second extracellular loops of the receptor.The existence of a specific receptor for substance P (SP), also termed the NK-1 receptor, is well established. Although this receptor has not been isolated by conventional biochemical methods, it has been cloned from several species (1-3). Analysis of the primary amino acid sequence suggests that, like other members of the G protein-coupled receptor family, the SP receptor possesses seven transmembrane-spanning domains with an extracellular N terminus and a cytoplasmic C-terminal domain. A question that has attracted considerable attention concerns the site(s) of interaction of the peptide with its receptor. The small classical neurotransmitters such as acetylcholine and norepinephrine bind to a site on their respective receptors that is formed by multiple transmembrane helices (4). In view of the larger size of the undecapeptide SP, it seems likely that extracellular domains also would partici-The publication costs of this article were defrayed in part by page charge payment. This article must ther...

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Biochemical Characterization of Two Different Forms of the Substance P Receptor in Rat Submaxillary Gland

Kage

Leeman

Boyd

1993

Journal of Neurochemistry

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Studies were designed to examine the basis for the difference in molecular weights of the two proteins detected in membrane preparations of rat submaxillary glands after photolabeling with a radioactive analogue of substance P, 125I-p-benzoyl-L-phenylalanine8-substance P. When the two proteins were separated and individually digested with endoglycosidase F, the relative molecular weight of each protein was reduced by approximately 10,000, indicating that the extent of glycosylation of both proteins is the same. To test whether the difference in their molecular weights can be attributed to a difference in the lengths of the two proteins, photolabeled membranes were treated with carboxypeptidase Y before solubilization to remove from each photolabeled protein the carboxy-terminal portion that extends beyond the membrane. Only one, albeit diffuse, band was now observed that on subsequent deglycosylation with endoglycosidase F was more clearly seen to be a single band, indicating that differing lengths of peptide chains were cleaved from the two proteins. These results permit the interpretation that the difference in the two forms of the substance P receptor present in rat submaxillary glands is due to differences in the length of their carboxy termini.

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Neuropeptide‐γ: A Peptide Isolated from Rabbit Intestine that Is Derived from γ‐Preprotachykinin

Kage

McGregor

Thim

et al. 1988

Journal of Neurochemistry

156

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The neurokinin A-like immunoreactivity in an extract of rabbit small intestine was resolved into two molecular forms by gel permeation chromatography. These components were purified to apparent homogeneity by reverse-phase HPLC. The primary structure of the larger component was established as the following: Asp-Ala-Gly-His-Gly-Gln-Ile-Ser-His-Lys-Arg-His-Lys-Thr-Asp-Ser-Phe-Val- Gly-Leu - Met.NH2. This amino acid sequence represents residues (72-92) of gamma-preprotachykinin, as predicted from the nucleotide sequence of a cloned cDNA from the rat. The peptide, termed neuropeptide-gamma, lacks residues (3-17) of neuropeptide K, and this segment is specified exactly by exon 4 in the preprotachykinin gene. The smaller form of neurokinin A-like immunoreactivity was identical to neurokinin A. Neuropeptide K was not present in the extract, demonstrating that the pathways of post-translational processing of beta- and gamma-preprotachykinins in the rabbit gut are different.

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R. Kage

Identification of Methionine as the Site of Covalent Attachment of a p-Benzoyl-Phenylalanine-containing Analogue of Substance P on the Substance P (NK-1) Receptor

The peptide binding site of the substance P (NK-1) receptor localized by a photoreactive analogue of substance P: presence of a disulfide bond.

Biochemical Characterization of Two Different Forms of the Substance P Receptor in Rat Submaxillary Gland

Neuropeptide‐γ: A Peptide Isolated from Rabbit Intestine that Is Derived from γ‐Preprotachykinin

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