UMLS:C0038454 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A new specific alpha-1 antagonist was studied in 16 patients with left ventricular failure. In Group I (8 patients) the drug was given as a 40 micrograms/kg intravenous bolus, and in Group II (8 patients) at the dose of 80 micrograms/kg. A thermodilution Swan-Ganz catheter, a Millar microtransducer introduced via the femoral artery were relayed to a SYSCOMORAM system to record the systemic artery pressures (SAP), pulmonary artery pressures (PAP), left ventricular pressures, and to calculate cardiac output and systemic and pulmonary arterial resistances (SAR, PAR) over a 30 minute period. In Group I (40 micrograms/kg), administration of AR-C 239 led to a significant decrease in PAP and SAP (-24 +/- 17 p. 100, p less than 0.02) with a fall in time-tension index (-20 +/- 19 p. 100, p less than 0.05) and a significant increase in LV stroke volume (+23 +/- 12 p. 100, p less than 0.01). At 80 micrograms/kg there was also a fall in LV filling pressures (-29 +/- 25 p. 100, p less than 0.05) and PAP (-38 +/- 28 p. 100, p less than 0.02) and an improvement in LV compliance (Gaaschisk -43 +/- 19 p. 100, p less than 0.01). These results show that AR-C 239 is a powerful vasodilator without secondary beta mimetic effects or influence on LV contractility; it may provide an effective means of treating cardiac failure.
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PMID:[Hemodynamic effects of a new alpha-1 antagonist, AR-C 239 administrated in intravenous bolus, in patients with cardiac insufficiency]. 310 96

This study examined whether the 8 weeks of initial medical training and 9 d re-certification every 3 yr given to Canadian Forces (CF) Search and Rescue Technicians (SAR Techs) was satisfactory. The course content was compared with 272 held medical case documents for the period 1990-93, inclusive. This practical medical care data showed a predominance of trauma rescue cases: 35% were life threatening conditions and 65% were non-life threatening conditions. They ranged from trauma, chest pain, abdominal pain, hypothermia, diabetic insulin overdose to stroke and gynecological bleeding. Of the life-threatening cases, 32% needed advanced treatment skills and 15% of the non-life threatening cases needed advanced treatment skills. It was concluded that the content of the initial and re-certification medical training was satisfactory as long as immediate transport to a specialist medical center was possible.
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PMID:A review of Canadian Forces Search and Rescue Technician medical training and operations, 1990-93. 872 79

Calpain I, an intracellular cysteine protease, has been implicated in the neurodegeneration following an episode of stroke. In this paper, we report on a series of potent dipeptide fluoromethyl ketone inhibitors of recombinant human calpain I (rh calpain I). SAR studies revealed that while calpain I tolerates a variety of hydrophobic groups at the P1 site, Leu at P2 is preferred. However, the nature of the N-terminal capping group has a significant effect on the inhibitory activity of this series of compounds. Compound 4e [(1,2,3,4-tetrahydroisoquinolin-2-yl)carbonyl-Leu-D,L-Phe-CH2F+ ++], having a tetrahydroisoquinoline containing urea as the N-terminal capping group, is the most potent dipeptide fluoromethyl ketone inhibitor of calpain I (with a second-order rate constant for inactivation of 276,000 M-1 s-1) yet reported; tripeptide 4k (Cbz-Leu-Leu-D,L-Phe-CH2F) is equipotent. A number of compounds presented in this study displayed excellent selectivity for calpain I over cathepsins B and L, two related cysteine proteases. Compounds which exhibited good inhibitory activity in the assay against isolated rh calpain I also inhibited intracellular calpain I in a human cell line. Thus, in an intact cell assay, compounds 4e and 4k inhibited calpain I with IC50 values of 0.2 and 0.1 microM, respectively. Finally, we also disclose the first example of fluorination of a dipeptide enol silyl ether to generate the corresponding dipeptide fluoromethyl ketone.
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PMID:Synthesis and biological activity of a series of potent fluoromethyl ketone inhibitors of recombinant human calpain I. 937 Dec 47

Selective N-type voltage sensitive calcium channel (VSCC) blockers have shown utility in several models of stroke and pain. We are especially interested in small molecule N-type calcium channel blockers for therapeutic use. Herein, we report a series of N,N-dialkyl-dipeptidylamines with potent functional activity at N-type VSCCs and in vivo efficacy. The synthesis, SAR, and pharmacological evaluation of this series are discussed.
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PMID:N,N-dialkyl-dipeptidylamines as novel N-type calcium channel blockers. 1020 59

Selective N-type voltage sensitive calcium channel (VSCC) blockers have shown efficacy in several animal models of stroke and pain. In the process of searching for small molecule N-type calcium channel blockers, we have identified a series of N-methyl-N-aralkyl-peptidylamines with potent functional activity at N-type VSCCs. The most active compound discovered in this series is PD 173212 (11, IC50 = 36 nM in the IMR-32 assays). SAR and pharmacological evaluation of this series are described.
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PMID:Structure-activity relationship of N-methyl-N-aralkyl-peptidylamines as novel N-type calcium channel blockers. 1046 35

After the identification of GV150526, the indole-2-carboxylate template was further explored in order to identify novel potential anti-stroke agents. In particular, the SAR of the side chain present at the C-3 position of the indole nucleus was widely studied. In this paper, the synthesis and the pharmacological profile of a further class of conformationally restricted analogues of GV150526 as in vitro and in vivo potent glycine antagonists is reported. In particular, a pyrazolidinone derivative was identified as a potent neuroprotective agent in animal models of cerebral ischaemia.
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PMID:Synthesis and pharmacological characterisation of a conformationally restrained series of indole-2-carboxylates as in vivo potent glycine antagonists. 1171 73

The 1,3,4,5-tetrahydro-benzo[c][1,6]- and [c][1,7]-napthyridin-6-ones are presented as a potent class of PARP-1 inhibitors. Derivatives of these partially saturated aza-5[H]-phenanthridin-6-ones were designed and synthesized with tertiary amines for salt formation, thus enhancing aqueous solubility, iv formulation and their potential use in acute ischemic injuries (i.e., myocardial ischemia and stroke). We found that partial saturation of the C-ring results in derivatives that are several times more potent than the aromatic C-ring derivatives. The general synthetic routes are presented herein as well as thorough in vitro potencies and SAR discussion for selected derivatives.
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PMID:Design and synthesis of poly(ADP-ribose)polymerase-1 (PARP-1) inhibitors. Part 3: In vitro evaluation of 1,3,4,5-tetrahydro-benzo[c][1,6]- and [c][1,7]-naphthyridin-6-ones. 1285 55

Inhibitors of the family of nitric oxide synthases (NOS-I-III; EC 1.14.13.39) are of interest as pharmacological agents to modulate pathologically high nitric oxide (NO) levels in inflammation, sepsis, and stroke. In this article, we discuss the approach for targeting the unique (6R)-5,6,7,8-tetrahydro-L-biopterin (H4Bip) binding site of NOS by appropriate inhibitors. This binding site maximally increases enzyme activity and NO production from the substrate L-arginine upon cofactor binding. The first generation of H4Bip-based NOS inhibitors was based on 4-amino H4Bip derivatives in analogy to anti-folates such as methotrexate. In addition, we discuss the structure-activity relationship of a related series of 4-oxo-pteridine derivatives. Furthermore, molecular modeling studies provide an understanding of pterin antagonism on a structural level based on favorable and unfavorable interactions between protein binding site and ligands. These techniques include 3D-QSAR (CoMFA, CoMSIA) to understand ligand affinity and GRID/consensus principal component analysis (CPCA) to learn about selectivity requirements. Collectively these approaches, in combination with the presented SAR and structural data, provide useful information for the design of novel NOS inhibitors with increased isoform selectivity.
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PMID:Biology and chemistry of the inhibition of nitric oxide synthases by pteridine-derivatives as therapeutic agents. 1522 85

The N-methyl-D-aspartate (NMDA) receptor is a ligand-gated ion channel which is widely distributed in the central nervous system (CNS), and which mediates most of the fast excitatory neuronal transmission in the CNS. As with other ligand-gated ion channels, the NMDA receptor is a macromolecular complex which possesses a number of intricate regulatory sites within and around a central ion channel. The key regulatory components for which prototypic antagonists have been developed are the competitive NMDA antagonist binding site, the non-competitive NMDA antagonist binding site within the ion channel, and the NMDA receptor-associated glycine antagonist site. The binding domains for each of these binding sites possess discrete and non-overlapping SAR with regard to the chemical series developed to date. The potential utility of NMDA antagonists in the treatment of stroke and traumatic brain injury was investigated soon after the synthesis of the first bioavailable NMDA antagonists. Efficacy in preclinical models was demonstrated with both competitive and non-competitive NMDA antagonists. However, preclinical testing also revealed potentially clinically-limiting side-effects which included phencyclidine (PCP)-like actions indicative of possible psychotomimetic activity, cerebral vacuolisation of limbic cortical neurones, low therapeutic indices relative to incapacitating motor side-effects and, in the case of non-competitive antagonists, hypertension. These limitations have led to the design of clinical trials that should define the therapeutic index for this type of compound in humans. Currently, the first competitive antagonist to enter clinical trials, selfotel, is on hold, while D-CPPene is still in development. The non-competitive antagonist, aptiganel, is currently in Phase III clinical trials and its therapeutic efficacy and index should be defined in 1997 and 1998. The well-defined limitations of competitive and non-competitive NMDA antagonists have been a key impetus in the investigation of alternative approaches to modulating the NMDA receptor complex. In the case of glycine site antagonists, these compounds have been shown in preclinical studies to be devoid of PCP-like actions and the neuronal vacuolisation associated with the competitive and non-competitive NMDA antagonists. This has induced the development of a number of chemical series with at least three compounds currently in Phase I and II clinical trials. These include ACEA 1021, GV150526A and ZD9379. Clinical efficacies and therapeutic indices of these compounds should be defined in 1998 and 1999. An alternative approach using a partial agonist of the glycine site (1-aminocyclopropane-carboxylic acid, ACPC) has been halted in Phase I. Another approach which has led to the development of NMDA receptor antagonists, selective for the NMDA receptor subunits 1A/2B (NR1A/2B subtype), was the discovery in early studies of the neuroprotective actions of ifenprodil. Structural analogues include eliprodil, CP-101,606 and lubeluzole. In the cases of eliprodil and lubeluzole, these compounds have demonstrated neuroprotection in preclinical models, but they possess the extremely dangerous side-effect of increasing cardiac repolarisation time (i.e., increased QTc interval). The therapeutic index for these compounds is low. This has led to the termination of eliprodil's development and has limited the current dosing strategy with lubeluzole. It has not been disclosed if CP-101,606 possesses this dose-limiting side-effect. In summary, strategies for drug design and development based on our knowledge of the NMDA receptor complex have led to the development of a new generation of compounds for the treatment of stroke and traumatic brain injury, which remain to be evaluated in the clinic. The success of this approach will be defined in the next two to three years.
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PMID:N-methyl-D-aspartate antagonists for stroke and head trauma. 1598 6

Glutamate is the main excitatory neurotransmitter in central nervous system (CNS) and NMDA receptors are one of the major classes of ionotropic glutamate receptors. NMDA receptors have been known to play critical roles in normal CNS activities, as well as in many pathological conditions, including both acute and chronic diseases. The discovery of glycine as a coagonist of NMDA receptors has led to intensive research of glycine/NMDA antagonists as potential CNS drugs. The robust efficacy of glycine/NMDA antagonists, such as ACEA-1021 (5), in animal model of brain ischemia, together with good safety profile in animal models and in clinical trials, suggested that this class of NMDA antagonists should have good chance of success in the clinic as neuroprotectants. The clinical trial of ACEA-1021 for stroke was discontinued, mainly due to low solubility and lack of metabolism of the drug that led to the observation of crystals in the urine of some of the patients. However, through SAR studies, compounds such as ACEA-1416 (10) have been identified with improved properties, such as higher in vivo potency and site for potential metabolism. Therefore these compounds should be able to overcome some of the liabilities of ACEA-1021 and potentially could be developed as neuroprotectants. Based on the preclinical and clinical studies of glycine/NMDA antagonists, as well as the clinical experiences with t-PA, initiation of treatment within a short time window after the onset of stroke could be critical for the success of these antagonists in clinical trials. This can be accomplished by implementing the procedure developed for t-PA clinical trials, with modification based on the safety profile of glycine/NMDA antagonists, for future clinical trial to administer the drug as soon as possible after stroke onset. In addition, glycine/NMDA antagonists also have other potential therapeutic applications, such as for the treatment of traumatic brain injury, pain, cocaine overdose and convulsions.
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PMID:Glycine/NMDA receptor antagonists as potential CNS therapeutic agents: ACEA-1021 and related compounds. 1671 7

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