Kazuhisa Miyoshi

Weekly Dosing With the Platelet-Derived Growth Factor Receptor Tyrosine Kinase Inhibitor SU9518 Significantly Inhibits Arterial Stenosis

Abstract— The platelet-derived growth factor (PDGF) ligands and their receptors have been implicated as critical regulators of the formation of arterial lesions after tissue injury. SU9518 (3[5-{5-bromo-2-oxo-1,2-dihydroindol-3-ylidenemethyl}-2,4-dimethyl-1 H-pyrrol-3-yl]propionic acid) is a novel synthetic indolinone that potently and selectively inhibits the cellular PDGF receptor kinase and PDGF receptor-induced cell proliferation. Inhibition of PDGF receptor phosphorylation in cell-based assays occurs within 5 minutes after drug exposure and persists for >6 hours after drug removal. The pharmacokinetics indicate plasma levels that exceeded the effective concentration required to inhibit the PDGF receptor in cells for up to 8 hours or 7 days after a single oral or subcutaneous administration, respectively. In the rat balloon arterial injury-induced stenosis model, once-daily oral or once-weekly subcutaneous administration of SU9518 reduced intimal thickening of the carotid artery (ratio of neointimal to medial area, 1.94±0.38 versus 1.03±0.29 [P <0.01] 2.21±0.32 versus 1.34±0.45 [P <0.01], respectively). These studies provide the rationale to evaluate PDGF receptor tyrosine kinase inhibitors, including inhibitors related to the indolinone, SU9518, for the treatment of arterial restenosis.

Cardiovascular profile of MPC-1304, a novel dihydropyridine calcium antagonist : comparison with other calcium antagonists

The cardiovascular profile of a novel calcium antagonist, MPC-1304 and its active metabolites were investigated in experimental animals in vitro and in vivo, and were compared with those of other calcium antagonists or nitroglycerin (NTG). The ratio of negative chronotropic/negative inotropic effect of MPC-1304 was 23 times higher than that of nifedipine in paced left and spontaneously beating right atria of guinea pigs. MPC-1304 and nifedipine did not change atrial-His (AH) conduction time or His-ventricular (HV) conduction time at hypotensive doses in open-chest dogs, whereas diltiazem prolonged AH time. MPC-1304 increased coronary blood flow, and strongly decreased myocardial oxygen consumption (MVO2) by decreasing blood pressure (BP) and heart rate (HR) in open-chest dogs. Left ventricular pressure (LVP) was not changed. Contractile force (dp/dt) was slightly increased by its action on afterload. MPC-1304 and nifedipine did not dilate the large coronary artery, but NTG did. MPC-1304 increased blood flow of the peripheral arteries, especially vertebral and CBF in anesthetized dogs. Cerebral blood flow (CBF) also increased. MPC-1304 decreased serum cholesterol levels and the plaque area of the aorta in cholesterol-fed rabbits. Because of this cardiovascular profile, MPC-1304 should be useful in treatment of hypertension as well as angina pectoris.

New Histopathological Experimental Model for Benign Prostatic Hyperplasia: Stromal Hyperplasia in Rats

PURPOSE Histological observations of clinical benign prostatic hyperplasia specimens show that benign prostatic hyperplasia tissue is mainly composed of stromal components, smooth muscle and fibrous tissue, so-called stromal hyperplasia. However, little is understood regarding the pathogenesis of this stromal hyperplasia due to no suitable stromal hyperplasia model to elucidate the pathology of benign prostatic hyperplasia. We created a novel model of benign prostatic hyperplasia accompanied by clinically relevant stromal hyperplasia. MATERIALS AND METHODS The urogenital sinus isolated from male rat 20-day embryos was implanted into pubertal male rat ventral prostates. Two to 8 weeks after the operation the implanted urogenital sinus was isolated, weighed and subjected to histochemical analysis. To distinguish between and characterize the epithelial and stromal components we stained for collagen, smooth muscle components, growth factors and proliferating cell nuclear antigen. In addition, to determine whether the implanted urogenital sinus had differentiated into functional prostate we stained for androgen receptor and dorsolateral prostatic secretory protein. RESULTS Urogenital sinuses removed from male rat 20-day embryos initially weighed approximately 1 mg. After implantation into host rat ventral prostates they grew in time dependent fashion with no apparent change in the original ventral prostate weight in the host rat. Implanted urogenital sinus weight was more than 100 mg 3 weeks after implantation. Histological observation demonstrated that the ratio of stromal to total area was approximately 70%, which was much higher than that in age matched rat ventral prostates and in a testosterone induced epithelial hyperplasia model (approximately 20% and 15%, respectively). This predominantly stromal tissue composition was maintained up to 8 weeks after implantation. Proliferating cell nuclear antigen staining revealed that the ratio of proliferating cells in stroma was equal to or greater than that in epithelium. In this model the antiandrogen agent chlormadinone acetate (Wako Pure Chemicals Industries, Osaka, Japan) at a dose of 10 mg/kg prevented the increase in implanted urogenital sinus weight (19.1%) but its potency was less than that seen in the testosterone induced epithelial hyperplasia model, that is 93.4% at the 10 mg/kg dose. CONCLUSIONS We have established a new experimental stromal hyperplasia model corresponding to clinical benign prostatic hyperplasia in terms of the composition of stromal components and functional differentiation of the prostate. Furthermore, the localization and time course of growth factor expression were also similar to those in men with benign prostatic hyperplasia.

MPC-1304, another type of dihydropyridine, possessing highly potent vasodilating action

We investigated the vasodilating action of MPC-1304, one of the most potent dihydropyridines causing hypotension, in anesthetized dogs and compared this with its binding properties. After intraarterial injection, MPC-1304 was 3 times less potent than other dihydropyridines (nitrendipine, nifedipine, nicardipine and nisoldipine) in increasing femoral blood flow. After infusion of these drugs, however, MPC-1304 was the most potent in increasing femoral blood flow. The onset and recovery of the effect of MPC-1304 on femoral blood flow were slower than for nifedipine. Higher doses of Bay K 8644 were needed to antagonize the stimulating activity of MPC-1304 than for nifedipine. In a competition assay of [3H]nitrendipine binding, MPC-1304 and its metabolites bound to the dihydropyridine receptor with lower affinity than the other dihydropyridines. The binding affinity of [3H]MPC-1304 was lower than that of [3H]nitrendipine, consistent with the potency of this drug to increase femoral blood flow by bolus injection. The association and dissociation of [3H]MPC-1304 was slower than those of [3H]nitrendipine, which is consistent with the slow onset and long-lasting vasodilating effects of MPC-1304 on femoral blood flow. Moreover, diltiazem reduced a part of [3H]MPC-1304 binding in a competitive manner. In ex vivo binding assays with serum and aorta obtained after oral administration of the drug in spontaneously hypertensive rats, MPC-1304 inhibited [3H]nitrendipine binding to membrane preparations less potently than nifedipine. From these results, we conclude that MPC-1304 is a different type of dihydropyridine possessing the most potent vasodilating action of the representative dihydropyridines tested. Its activity cannot be explained solely by a slow interaction with voltage-dependent Ca2+ channels.

Role of hematopoietic prostaglandin D synthase in biphasic nasal obstruction in guinea pig model of experimental allergic rhinitis.

We investigated the role of hematopoietic prostaglandin D synthase (H-PGDS) in biphasic nasal obstruction in allergic rhinitis using a new specific inhibitor, (N-methoxy-N-methyl)-4-(5-benzoylbenzimidazole-2-yl)-3,5-dimethylpyrrole-2-carboxamide hydrochloride (TAS-204). First, we developed a novel guinea pig model of allergic rhinitis. Guinea pigs sensitized to ovalbumin without adjuvant were challenged with intranasal exposure to ovalbumin once a week. After the 3rd antigen challenge, they exhibited biphasic nasal obstruction. Additionally, analysis of nasal lavage fluid revealed an increase in the level of prostaglandin D(2) in both early and late phases. Treatment with oral TAS-204 for 15 days during the period of antigen challenges suppressed increases in nasal airway resistance in both phases. It is noteworthy that the late phase nasal obstruction was almost completely abrogated by inhibiting H-PGDS alone. Eosinophil infiltration in nasal lavage fluid and nasal hyperresponsiveness to histamine was also reduced by TAS-204 administration. These findings suggest that H-PGDS plays a critical role in the development of allergic rhinitis, especially in the induction of late phase nasal obstruction.

Renal effects of the calcium channel blocker aranidipine and its active metabolite in anesthetized dogs and conscious spontaneously hypertensive rats

The purpose of this study was to investigate the renal effects of aranidipine, a novel calcium channel blocker of the dihydropyridine type, and its active metabolite in anesthetized dogs and conscious spontaneously hypertensive rats (SHRs). When infused into the renal artery in anesthetized dogs, aranidipine (0.03 microg/kg/min) induced sustained increases in urine volume and urinary excretion of sodium and of potassium. This effect was greater than that elicited by nifedipine (0.1 microg/kg/min). The aranidipine metabolite, M-1 (0.1 microg/kg/min), also caused diuresis and natriuresis almost equal to those of nifedipine. The stop-flow experiment using the anesthetized dog showed that intrarenal infusion of aranidipine (0.03 microg/kg/min), as well as nifedipine (0.1 microg/kg/min), produced natriuresis at the distal tubular site rather than at the proximal site. Aranidipine (0.3, 1, and 3 mg/kg), when administered orally, dose-dependently increased urine volume and urinary excretion of electrolytes in conscious saline-loaded SHRs. M-1 (10 mg/kg, p.o.) also showed diuretic and natriuretic effects comparable to those of nifedipine (10 mg/kg) in SHRs. In addition, after repeated oral administration of aranidipine for 7 days, short-term tolerance was not found for its diuretic and natriuretic effects in SHRs. These results suggest that, apart from antihypertensive efficiency, aranidipine may offer a therapeutic advantage by producing diuresis and natriuresis in hypertensive patients. The metabolite of aranidipine may contribute, in part, to the diuretic, natriuretic, and antihypertensive effects of aranidipine.

Contribution of aranidipine metabolites with slow binding kinetics to the vasodilating activity of aranidipine

Abstract Aranidipine, a novel dihydropyridine derivative, gives rise to two active metabolites, M-1(α) and M-1(β), which exhibit hypotensive activity comparable to that of nifedipine. The aim of this study was to examine the recovery phase of the vasodilating effect of M-1(α) and of M-1(β), to determine their binding characteristics and to compare the results with those for aranidipine and other dihydropyridine derivatives.During intra-arterial infusion into the femoral vascular beds of anesthetized dogs, M-1(α), M-1(β), and nifedipine, produced increases in femoral blood flow at doses three times higher than the dose of aranidipine required to produce a comparable effect. The onset and recovery of the effects of the metabolites on femoral blood flow were significantly slower than the onset and recovery of the effect of nifedipine. The inhibitory activities of M-1(α) and M-1(β) towards stimulated 45Ca uptake in isolated guinea pig aorta were less than that of aranidipine. In binding studies, using porcine heart membrane preparations, [3H]M-1(α) and [3H]M-1(β) had larger Kd values than [3H]aranidipine and [3H]nitrendipine, but the maximal binding number for each of them was almost the same. The association and dissociation rate constants for [3H]M-1(α) and [3H]M-1(β) binding, as well as those for [3H]aranidipine binding, were significantly smaller than those for [3H]nitrendipine, corresponding to the recovery of the in vivo vasodilating effects of the metabolites. The dissociation rate constants of these radiolabeled ligands were highly positively correlated with the elimination rate constants of their in vivo vasodilating effects. From these results, we conclude that M-1(α) and M-1(β), although their binding affinities and Ca2+ antagonistic actions are less potent, possess slower kinetic binding properties than many other dihydropyridines and that the slow kinetic interaction of these metabolites with the dihydropyridine receptor may contribute to the long-lasting in vivo vasodilating effect of aranidipine.

Tas-301, a new synthetic inhibitor of neointimal thickening after balloon injury, inhibits calcium-dependent signal transduction and cytoskeletal reorganization.

We previously demonstrated that a recently synthesized drug, TAS-301 [3-bis(4-methoxyphenyl)methylene-2-indolinone], inhibited neointimal thickening after single-balloon injury to the rat common carotid artery by inhibiting both the migration and proliferation processes of vascular smooth muscle cells (VSMCs). The purpose of this current study was to elucidate the possible mechanism of action for its inhibition of the migration process of VSMCs. We also determined the efficacy of TAS-301 on second neointimal formation 14 days after a double-balloon injury to the rat common carotid artery. Neointimal thickening, 14 days after second balloon injury, was reduced by the oral administration of TAS-301 in a dose-dependent manner. In in vitro assays using rat VSMCs, Western blot analysis showed that TAS-301 inhibited platelet-derived growth factor (PDGF)-induced tyrosine phosphorylation of both focal adhesion kinase and paxillin. Tyrosine phosphorylation of these proteins depended on the increment of intracellular calcium concentration ([Ca2+]i). The PDGF-induced elevation of [Ca2+]i and activation of Ca2+/calmodulin-dependent protein kinase II (CaM kinase II) were also inhibited by TAS-301. Additionally, TAS-301 at 10 µmol/l reduced the extent of F-actin stress fiber depolymerization observed in response to PDGF. These results indicate that TAS-301 reduced the intimal thickening after denudation to a pre-existing lesion to the same extent as it reduced that after a single-balloon injury to the normal artery. Furthermore, the results of our in vitro experiments suggest that antimigratory mechanisms of TAS-301 that contribute to preventing the intimal thickening might be mediated by drug inhibition of Ca2+-dependent signal molecules and the following cytoskeletal depolymerization.

VAT-1 is a novel pathogenic factor of progressive benign prostatic hyperplasia.

Benign prostatic hyperplasia (BPH), arising from prostatic stromal hyperplasia (STH), is a progressive disease associated with bothersome lower urinary tract symptoms (LUTS). The mechanism of this STH remains unclear because there is no suitable model to study BPH pathology. Previously, we reported a new experimental BPH model that is clinically relevant to STH (the STH model). To elucidate prostatic STH mechanism, we used a compound found to be effective in the STH model.

Therapeutic effect of TAC-302, a cyclohexenoic fatty alcohol derivative, on bladder denervation-related storage and voiding dysfunctions in rats

To evaluate the therapeutic effect of TAC‐302, a cyclohexenoic fatty alcohol derivative, on bladder denervation‐related storage and voiding dysfunctions in rats with bladder outlet obstruction (BOO).