Stewart Jm scite author profile

Administration of a potent gonadotropin-releasing hormone (GnRH) antagonist [Nac-L-Ala1,pCl-D-Phe2,D-Trp3,6]GnRH as a single subcutaneous injection to castrated adult male rats reduced, by more than 90 percent, both serum luteinizing hormone concentrations and specific pituitary GnRH receptor binding. This effect persisted for 24 hours. The dissociation rate of the antagonist from pituitary membrane homogenates was fourfold slower than the dissociation rate of a potent agonist. The prolonged in vivo inhibition of pituitary GnRH receptor binding and luteinizing hormone secretion by the GnRH antagonist may be mediated by the slower dissociation rate of the antagonist from its specific pituitary membrane receptor site.

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Highly Selective Bradykinin Agonists and Antagonists with Replacement of Proline Residues byN-Methyl-d- andl-phenylalanine

Reißmann

Schwuchow

Seyfarth

et al. 1996

J. Med. Chem.

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For further studies on the structural and conformational requirements of positions 2,3, and 7 in the bradykinin sequence, we replaced the proline residues by the more hydrophobic and conformationally restricted N-methyl-L- and D-phenylalanine (NMF). The biological activities of the new analogs were evaluated on rat uterus, guinea pig ileum, and guinea pig lung strip. Receptor binding of the analogs was studied in membranes from rat uterus and guinea pig ileum. Influence of bradykinin analogs on the release of cytokines from mouse spleen cell cultures was also measured. Bradykinin analogs were synthesized by the solid phase method, using Boc strategy on PAM or Merrifield resins. The best results in the formation of the N-methylamide bond were obtained with the coupling reagent PyBrop. In position 7 the substitution of D-Phe by D-NMF, retaining the configuration of the amino acid, converts bradykinin antagonists into agonists. The bradykinin analogs with D-NMF at position 7 gave the highest known tissue selectivity for rat uterus among agonists. [L-NMF(2)]bradykinin has moderate agonist activity on rat uterus but antagonist activity on guinea pig lung strip. It represents a new antagonist for B(2) receptors without any replacement at position 7. The same analog completely inhibits bradykinin-evoked cytokine expression by mononuclear cells.

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Angiotensin II type 1 receptor blockade corrects cutaneous nitric oxide deficit in postural tachycardia syndrome

Jm¹,

Taneja²,

Glover³

et al. 2009

Autonomic Neuroscience

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Metabolism-Resistant Bradykinin Antagonists: Development and Applications

Jm¹,

Gera²,

Ej³

et al. 2001

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Bradykinin plays many roles in normal and pathological physiology, but rapid enzymatic degradation made elucidation of its functions extremely difficult. Development of effective degradation-resistant antagonists made it possible to delineate these roles and to open the way for development of new drugs to control pathology due to excess production of bradykinin. Presently available peptide bradykinin antagonists are extremely potent, are completely resistant to enzymatic degradation, and are orally available. Non-peptide bradykinin antagonists have also been discovered. Development of bradykinin antagonists as drugs for cancer, inflammation and trauma is anticipated.

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Stewart Jm

Pituitary Receptor Site Blockade by a Gonadotropin-Releasing Hormone Antagonist in Vivo: Mechanism of Action

Highly Selective Bradykinin Agonists and Antagonists with Replacement of Proline Residues byN-Methyl-d- andl-phenylalanine

Angiotensin II type 1 receptor blockade corrects cutaneous nitric oxide deficit in postural tachycardia syndrome

Metabolism-Resistant Bradykinin Antagonists: Development and Applications

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