J.Eileen Bird

Antihypertensive Effects of a Novel Endothelin-A Receptor Antagonist in Rats

Endothelin is a potent pressor agent mediated primarily through activation of endothelin-A receptors on vascular smooth muscle. Surprisingly, there is no consensus in the literature regarding the role of endothelin itself or endothelin-A receptors in hypertension. The goal of this study was to compare the effects of the novel, selective endothelin-A receptor antagonist BMS-182874 in various models of hypertension. BMS-182874 specifically inhibited the pressor response to endothelin-1 (0.3 nmol/kg IV) in Sprague-Dawley rats in a dose-dependent manner (ED25 = 8 mumol/kg IV) but had no effect on changes in mean arterial pressure brought about by other vasoactive agents. The antihypertensive effects of BMS-182874 were evaluated in conscious deoxycorticosterone acetate (DOCA)--salt hypertensive rats, spontaneously hypertensive rats (SHR), and sodium-deplete SHR. BMS-182874 reduced blood pressure in DOCA--salt hypertensive rats when administered at a dose of 30, 100, or 300 mumol/kg IV. A maximal decrease of approximately 45 mm Hg was observed after treatment with 100 mumol/kg IV. Three days of oral or intravenous treatment with BMS-182874 (100 mumol/kg) elicited a sustained decrease in blood pressure in the DOCA--salt hypertensive rats. In SHR, BMS-182874 decreased blood pressure by approximately 30 mm Hg, but the antihypertensive effects were similar at doses of 75, 150, and 450 mumol/kg PO. In sodium-deplete SHR, BMS-182874 did not significantly reduce blood pressure. In summary, BMS-182874 is a specific, orally active endothelin-A receptor antagonist that is efficacious in mineralocorticoid hypertension in rats but has less effect in sodium-replete and sodium-deplete SHR.(ABSTRACT TRUNCATED AT 250 WORDS)

Dual metalloprotease inhibitors. I. constrained peptidomimetics of mercaptoacyl dipeptides

Abstract A series of benzo-fused lactams were incorporated as conformationally restricted dipeptide mimetics of Ala-Pro in dual-acting ACE/NEP inhibitors 1 and 2. The result of this modification led to compounds possessing excellent inhibitory potency versus ACE and NEP both in vitro and in vivo.

MERCAPTOACYL DIPEPTIDES AS DUAL INHIBITORS OF ANGIOTENSIN-CONVERTING ENZYME AND NEUTRAL ENDOPEPTIDASE PRELIMINARY STRUCTURE-ACTIVITY STUDIES

Abstract Mercaptoacyl dipeptides were prepared as dual-acting ACE/NEP inhibitors. Inhibition of each enzyme may be explained by different binding models. Structure-activity studies determined that, in this series of compounds, the mercaptopropanoyl dipeptide framework leads to increased affinity for NEP but diminished ACE activity in vivo .

Dual metalloprotease inhibitors. II. Effect of substitution and stereochemistry on benzazepinone based mercaptoacetyls

Abstract A structure-activity study of dual-acting ACE/NEP inhibitor 1A was initiated in order to ascertain what parameters effect in vitro activity versus ACE and NEP. Unlike NEP, ACE was found to be remarkably tolerant to a wide variety of permutations with respect to both the lactam nucleus and the pharmacophore side chain.

Bleeding response induced by anti-thrombotic doses of a phosphoinositide 3-kinase (PI3K)-β inhibitor in mice☆

INTRODUCTION Published evidence suggests that phosphoinositide 3 kinase-β (PI3K-β) plays an important role in platelet aggregation and shear activation. TGX-221 is a selective PI3K-β inhibitor with a good separation of anti-thrombotic efficacy and bleeding (therapeutic index) in rats. Our goal was to further evaluate potential of a PI3K-β inhibitor as an anti-thrombotic agent by determining the therapeutic index in another species and efficacy model. Reported effects of TGX-221 in rats were also confirmed. MATERIALS AND METHODS TGX-221 (0.3 + 0.3, 1 + 1, 3 + 3 mg/kg + mg/kg/hr, i.v.) or vehicle was given to mice starting 15 min prior to FeCl(3) arterial thrombosis (AT), tail or kidney bleeding time (BT) procedures. RESULTS Integrated blood flow over 30 min (%baseline mean ± SEM) improved (p < 0.05) with TGX-221 doses 1 + 1 (49 ± 13.9%) and 3+3 (88 ± 10.6%) versus 0.3 + 0.3 (10 ± 0.8%) and vehicle (10 ± 0.6%). Vascular patency (non-occluded/total arteries) improved (p < 0.01) with TGX-221 doses of 3 + 3 (7/8), but not 0.3 + 0.3 (0/8) or 1 + 1 (4/8) versus vehicle (0/8). Tail BT (sec) increased (p < 0.05) with TGX-221 doses of 3 + 3 (median 1560) and 1 + 1 (1305) versus vehicle (225). Mean renal BT (sec) increased (p < 0.05) in all TGX-221 groups (3 + 3: 510 + 26; 1 + 1: 478 + 41; 0.3 + 0.3: 246 + 37) versus vehicle (123 + 9). For comparison, a reference agent, aspirin (30 mpk, i.p.) increased tail BT 1.9X and renal BT 2.6X. CONCLUSIONS The novel finding of a clear impact on hemostasis by TGX-221 was demonstrated by increased bleeding in two models in mice at anti-thrombotic doses. The results suggest a narrower therapeutic index for this PI3K-β inhibitor than previously recognized, at least for this species.

Dual metalloprotease inhibitors.v. Utilization of bicyclic azepinonethiazolidines and azepinonetetrahydrothiazines in constrained peptidomimetics of mercaptoacyl dipeptides

Abstract Incorporation of mercaptoacetyl or mercaptopropanoyl groups into azepinonethiazolidine and azepinonetetrahydrothiazine carboxylic acids provided conformationally restricted peptidomimetics of Ala-Pro exhibiting potent dual activity in vitro versus ACE and NEP.

Dual metalloprotease inhibitors. IV. Utilization of thiazepines and thiazines as constrained peptidomimetic surrogates in mercaptoacyl dipeptides

Abstract A structure-activity study of the dual acting ACE/NEP inhibitors related to 1a and 1b was undertaken to determine the parameters critical for activity versus ACE and NEP in vitro.

The effects of novel cathepsin E inhibitors on the big endothelin pressor response in conscious rats

The aspartic protease, cathepsin E, has been shown to specifically cleave big endothelin (big ET-1) at the Trp21-Val22 bond to produce endothelin (ET-1) and the corresponding C-terminal fragment. To determine whether cathepsin E is a physiologically relevant endothelin converting enzyme (ECE), three novel and potent inhibitors of cathepsin E were administered to conscious rats prior to a pressor challenge with big ET-1. One of the inhibitors of cathepsin E, SQ 32,056 (3 mg/kg i.v.), blocked the big ET-1 response. However, this dose of SQ 32,056 also blocked the pressor response to ET-1. Phosphoramidon specifically inhibited the Big ET-1 pressor response. These results suggest that ECE is not cathepsin E.

Synthesis, biological properties, and structure-activity relationships of quinoxaline angiotensin II receptor antagonists

Abstract Quinoxaline heterocycle containing angiotensin II receptor antagonist analogs were prepared. All five analogs reported here display potent antagonistic activities and most interestingly, quinozaline bis-N-oxide 10 exhibits very potent activities both in binding and functional assays.

1,4-substituted indoles: a potent and selective class of angiostensin II receptor antagonists

The syntheses and pharmacological activity of a series of 1,4-substituted indoles which function as nonpeptidic antagonists of the angiotensin II (AII) receptor are described. Compounds in this series are orally active and demonstrate long lasting antihypertensive activity.