Pradip K. Bhatnagar

An orally active calcium-sensing receptor antagonist that transiently increases plasma concentrations of PTH and stimulates bone formation

Daily subcutaneous administration of exogenous parathyroid hormone (PTH) promotes bone formation in patients with osteoporosis. Here we describe two novel, short-acting calcium-sensing receptor antagonists (SB-423562 and its orally bioavailable precursor, SB-423557) that elicit transient PTH release from the parathyroid gland in several preclinical species and in humans. In an ovariectomized rat model of bone loss, daily oral administration of SB-423557 promoted bone formation and improved parameters of bone strength at lumbar spine, proximal tibia and midshaft femur. Chronic administration of SB-423557 did not increase parathyroid cell proliferation in rats. In healthy human volunteers, single doses of intravenous SB-423562 and oral SB-423557 elicited transient elevations of endogenous PTH concentrations in a profile similar to that observed with subcutaneously administered PTH. Both agents were well tolerated in humans. Transient increases in serum calcium, an expected effect of increased parathyroid hormone concentrations, were observed post-dose at the higher doses of SB-423557 studied. These data constitute an early proof of principle in humans and provide the basis for further development of this class of compound as a novel, orally administered bone-forming treatment for osteoporosis.

Identification of Unique Truncated KC/GROβ Chemokines with Potent Hematopoietic and Anti-Infective Activities

SK&F 107647, a previously described synthetic immunomodulatory peptide, indirectly stimulates bone marrow progenitor cells and phagocytic cells, and enhances host defense effector mechanisms in bacterial and fungal infection models in vivo. In vitro, SK&F 107647 induces the production of a soluble mediator that augments colony forming cell (CFU-GM) formation in the presence of CSFs. In this paper we purified and sequenced the stromal cell-derived hematopoietic synergistic factors (HSF) secreted from both murine and human cell lines stimulated with SK&F 107647. Murine HSF is an N-terminal 4-aa truncated form of the CXC chemokine, KC, while human HSF was identified as an N-terminal 4-aa truncated form of the CXC chemokine, GROβ. In comparison to their full-length forms, truncated KC and truncated GROβ were 10 million times more potent as synergistic growth stimulants for CFU-GM. Enhanced potency of these novel truncated chemokines relative to their full-length forms was also demonstrated in respiratory burst assays, CD11b Ag expression, and intracellular killing of the opportunistic pathogen, Candida albicans. Administration of truncated KC significantly enhanced survival of mice lethally infected with C. albicans. The results reported herein delineate the biological mechanism of action of SK&F 107647, which functions via the induction of unique specific truncated forms of the chemokines KC and GROβ. To our knowledge, this represents the first example where any form of KC or GROβ were purified from marrow stromal cells. Additionally, this is the first demonstration of in vivo efficacy of a CXC chemokine in an animal infectious fungal disease model.

Metabolism, uptake, and transepithelial transport of the diastereomers of Val-Val in the human intestinal cell line, Caco-2.

AbstractPurpose. The purpose of this study was to determine whether the binding of the diastereomers of Val-Val to the apical oligopeptide transporter(s) could be correlated with their cellular uptake and transepithelial transport. Methods. The Caco-2 cell culture system was used for all experiments. The binding of the diastereomers of Val-Val was evaluated by determining their ability to inhibit [3H]cephalexin uptake. The stability of the diastereomers was determined in a homogenate of Caco-2 cells and in the apical bathing solution over Caco-2 cell monolayers. The cellular uptake and transepithelial transport properties of the individual diastereomers were studied using Caco-2 cell monolayers. Results. 10 mM concentrations of L-Val-L-Val, L-Val-D-Val, D-Val-L-Val and D-Val-D-Val inhibited cellular uptake of [3H]cephalexin (0.1 mM) by 92%, 37%, 70%, and 18%, respectively. When the cellular uptake of Val-Val diastereomers (1 mM) were evaluated, the intracellular concentrations of L-Val-D-Val and D-Val-L-Val were 15 and 50 times higher, respectively, than that of D-Val-D-Val. The cellular uptake of L-Val-D-Val and D-Val-L-Val was inhibited by Gly-Pro (10 mM) (>95%), whereas Gly-Pro had no effect on the cellular uptake of D-Val-D-Val. L-Val-L-Val was not detected in the Caco-2 cells, probably due to its metabolic lability. When the transepithelial transport of the Val-Val diastereomers (1 mM) was determined, L-Val-D-Val, D-Val-L-Val and D-Val-D-Val transport rates were similar. The transepithelial transport of L-Val-D-Val and D-Val-L-Val was inhibited by Gly-Pro (10 mM) 36% and 30%, respectively, while Gly-Pro inhibited carnosine (1 mM) transepithelial transport by 65%. Gly-Pro had no effect on the transepithelial transport of D-Val-D-Val. Conclusions. These results suggest that the major transepithelial transport route of L-Val-D-Val, D-Val-L-Val and D-Val-D-Val is passive diffusion via the paracellular route. The binding of Val-Val diastereomers to the oligopeptide transporter(s) is a good predictor of their cellular uptake, however, the binding is not a good predictor of their transepithelial transport. It appears that the stereochemical requirements for the transporter that mediates efflux of the peptide across the basolateral membrane may be different from the requirements for the apical transporter that mediates cellular uptake.

Antagonists of the calcium receptor I. Amino alcohol-based parathyroid hormone secretagogues.

Functional screening of the former SmithKline Beecham compound collection against the human calcium receptor (CaR) resulted in the identification of the amino alcohol-based hit 2 (IC(50) = 11 microM). Structure-activity studies of 2 focused on the optimization of the right- and left-hand side aromatic moieties as well as the amino alcohol linker region. Critical to the optimization of this antagonist template was the discovery that the chirality of the C-2 secondary alcohol played a key role in enhancing both CaR potency as well as selectivity over the beta-adrenergic receptor subtypes. These SAR studies ultimately led to the identification of 38 (NPS 2143; SB-262470A), a potent and orally active CaR antagonist. Pharmacokinetic characterization of 38 in the rat revealed that this molecule had a large volume of distribution (11 L/kg), which resulted in a prolonged systemic exposure, protracted increases in the plasma levels of PTH, and an overall lack of net bone formation effect in a rodent model of osteoporosis.

Combinatorial chemistry. Preparation of phenoxypropanolamines

Abstract An efficient solid-phase parallel synthesis of aryloxypropanolamines is described. Mitsunobu coupling was used to attach ( R )-(+)- and ( S )-(−)-glycidol to resin-bound phenols, then the epoxide ring was opened with amines. A 25-member array was synthesized on Wang resin with a sarcosine handle. The overall yield was about 70%. A ‘split and mix’ approach was used to prepare a 5800-member bead bound combinatorial library on Rink amide resin. Magic angle NMR was used to monitor the reaction progress on the resin. Analysis by LC–MS revealed that >70% of the beads examined contained an identifiable product that was >70% pure by HPLC.

Stereoselective Synthesis of Diaminosuberic Acid Via a Chiral Alkynyl Oxazolidine

Abstract A novel, stereoselective synthesis of enantiomerically pure, N-protected diaminosuberic acid (6) is presented. The key step in the synthesis is the oxidative dimerization of the chiral alkynyl oxazolidine (2).

Novel peptidomimetic hematoregulatory compounds

The activity of a novel series of peptidomimetic hematoregulatory compounds, designed based on a pharmacophore model inferred from the structure activity relationships of a peptide SK&F 107647 (1), is reported. These compounds induce a hematopoietic synergistic factor (HSF) which in turn modulates host defense. The compounds may represent novel therapeutic agents in the area of hematoregulation.

The synthesis of a hematoregulatory agent based on HP-5B containing an effective, achiral cystine replacement

Abstract The cystine moiety of the novel hematoregulatory peptide HP-5b has been substituted with an achiral N,N′-bis(carboxymethyl)-1,4-diaminobutane unit. The resulting compound was also a potent hematoregulatory agent, suggesting that N,N′-bis(carboxymethyl)-1,4-diaminobutane can function as an effective achiral cystine replacement in this molecular series.