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OBJECTIVE: To describe the preclinical pharmacology of Ro 115-1240, a peripherally acting selective alpha1A/1L-adrenoceptor (AR) partial agonist, compared with the alpha1A/1L-AR full agonist amidephrine, as AR agonists have some utility in the treatment of stress urinary incontinence (SUI) but are limited by undesirable cardiovascular and central nervous system side-effects. RESULTS: In radioligand-binding studies Ro 115-1240 had greater affinity for alpha1A than for alpha1B and alpha1D subtypes. The potency and intrinsic activity of amidephrine and Ro 115-1240 relative to noradrenaline were determined in native and cell-based assays using human recombinant alpha1-ARs; they acted as selective alpha1A/1L-AR full and partial agonists, respectively. In anaesthetized micropigs and rabbits, amidephrine and Ro 115-1240 produced non-selective, dose-dependent increases in intraurethral and arterial blood pressures but the magnitude of the pressure increases evoked by Ro 115-1240 were about a third of those with amidephrine. In conscious micropigs both agents produced dose-dependent increases in urethral tension. Again, the magnitude of the urethral response to Ro 115-1240 was about a third of that with amidephrine. More importantly, only amidephrine produced dose-dependent increases in blood pressure and decreases in heart rate. Ro 115-1240 produced a maximum increase in urethral tension with no effect on blood pressure or heart rate. CONCLUSION: These results show that by combining selectivity for the alpha1A/1L-AR subtype with a reduction in intrinsic agonist efficacy, Ro 115-1240 has reduced haemodynamic effects while retaining to some degree the contractile effects on urethral smooth muscle. These studies indicate that Ro 115-1240 may be useful as a novel treatment for SUI.

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The marked analgesic efficacy of ketorolac in humans, relative to other nonsteroidal anti-inflammatory drugs (NSAIDs), has lead to speculation as to whether additional non-NSAID mechanism(s) contribute to its analgesic actions. To evaluate this possibility, we characterized (R,S)-ketorolac's pharmacological properties in vivo and in vitro using the nonselective cyclooxygenase (COX) inhibitors [indomethacin (INDO) and diclofenac sodium (DS)] as well as the selective COX-2 inhibitor, celecoxib, as references. The potency of racemic (R,S)-ketorolac was similar in tests of acetic acid-induced writhing, carrageenan-induced paw hyperalgesia, and carrageenan-induced edema formation in rats; ID50 values = 0.24, 0. 29, and 0.08 mg/kg, respectively. (R,S)-ketorolac's actions were stereospecific, with (S)-ketorolac possessing the biological activity of the racemate in the above tests. The analgesic potencies for (R,S)-, (S)-, and (R)-ketorolac, INDO, and DS were highly correlated with their anti-inflammatory potencies, suggesting a common mechanism. (R,S)-ketorolac was significantly more potent than INDO or DS in vivo. Neither difference in relative potency of COX inhibition for (R,S)-ketorolac over INDO and DS nor activity of (S)-ketorolac at a number of other enzymes, channels, or receptors could account for the differences in observed potency. The distribution coefficient for (R,S)-ketorolac was approximately 30-fold less than for DS or INDO, indicating that (R,S)-ketorolac is much less lipophilic than these NSAIDs. Therefore, the physicochemical and pharmacokinetics properties of (R,S)-ketorolac may optimize the concentrations of (S)-ketorolac at its biological target(s), resulting in greater efficacy and potency in vivo.

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Drugs that are clinically effective (mexiletine and desipramine) or ineffective (fluoxetine) in the treatment of human neuropathic pain were evaluated for efficacy in rat models involving central sensitization (i.e., formalin model and the L5/L6 spinal nerve ligation model of neuropathic pain) using tests that differ in stimulus modality: noxious chemical stimulus (formalin model) as well as noxious (pin prick) and innocuous mechanical stimuli (application of von Frey filaments). Mexiletine (10-100 mg/kg, s.c.) significantly (P < 0.05) attenuated hyperalgesia in formalin-treated (60 mg/kg and 100 mg/kg) and neuropathic rats (100 mg/kg) as well as tactile allodynia in neuropathic rats (100 mg/kg). Desipramine (1-100 mg/kg, s.c.), on the other hand, reduced hyperalgesia significantly (P < 0.05) in formalin-treated (3, 10, 30 and 100 mg/kg) and neuropathic rats (10 mg/kg and 100 mg/kg), but did not reduce tactile allodynia in the neuropathic rats. Fluoxetine (3-30 mg/kg, s.c.) did not inhibit either hyperalgesia or allodynia in any of the tests employed. Fluoxetine, which is relatively ineffective in reducing neuropathic pain in humans, was also ineffective in reducing hyperalgesia and allodynia associated with central sensitization in rats. Thus, drugs which are effective in reducing human neuropathic pain consistently attenuated hyperalgesia in formalin-treated or neuropathic rats. Desipramine also distinguished mechanical hyperalgesia from tactile allodynia in rats rendered neuropathic by spinal nerve ligation. These data are consistent with the hypothesis that the neuronal mechanisms underlying these two manifestations of neuropathic pain are different.

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A novel, computer-driven, dynamic-force detector was validated for use in measuring the formalin-induced agitation response. Intraplantar administration of formalin (0.25-5%) provoked a biphasic agitation response as measured with the automated system. The magnitude of both phases of the response increased with the intensity of the noxious stimulus. Morphine (1-5 mg/kg, s.c.) inhibited both phase 1 and 2 of the agitation response evoked by 5% formalin with ID50 values of 2.07 +/- 0.47 and 1.35 +/- 0.02 mg/kg, respectively. The non-peptide, NK1 antagonist, (+/-)-CP-96,345 (30 mg/kg, s.c.), partially blocked phase 2 but did not alter the magnitude of phase 1. These results are comparable with those obtained by us and others using a multiple-pain-behavior scoring system or certain uni-dimensional measures. In addition, they indicate that the automated system yields a valid measure of the formalin-induced agitation response.

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5-Hydroxytryptamine (5-HT) stimulated an increase in short-circuit current (ISC) in guinea-pig isolated ileal mucosa over a wide concentration range (0.1 nM-0.1 mM). The concentration-response relationship was biphasic, consisting of a high potency phase (0.1 nM-1 microM) and a low potency phase (3-10 microM). Stimulation of ISC observed at the high potency phase tended to be sustained while responses at the low potency phase (3-10 microM) contained two components, an initial "transient" response followed by a "maintained" response. Both the high potency phase (maximum stimulation approximately 30 microA cm-2) and the low potency phase (maximum stimulation approximately 80 microA cm-2) 5-HT response were antagonized by tetrodotoxin (TTX, 0.3 microM) and atropine (1 microM). However, another low potency (3 microM-0.1 mM, maximum stimulation approximately 30 microA cm-2) component of the 5-HT response was revealed in the presence of TTX or atropine. In the presence of methysergide (1 microM), the concentration-response relationship of 5-HT was still biphasic and tropisetron (0.1 and 10 microM) antagonized both phases of the 5-HT response. In the presence of methysergide, the high potency phase 5-HT response was mimicked by 5-methoxytryptamine (5-MeOT) and the selective 5-HT4 agonist SC-53116 but not by BIMU 8. The potent 5-HT4 antagonist GR 113808 antagonized the response to 5-MeOT in a surmountable manner with an affinity estimate of 9.6 +/- 0.3 (n = 4).(ABSTRACT TRUNCATED AT 250 WORDS)

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Serosal but not mucosal addition of the peptidoleukotrienes, leukotriene (LT) C4 (LTC4), LTD4 and LTE4 transiently (maximal response within 2 min) increased short-circuit current (Isc) and transepithelial conductance across stripped rabbit colonic mucosa mounted in Ussing chambers. All three peptidoleukotrienes elicited their responses in the presence of amiloride (10 microM) and were inhibited by serosal addition of the NaCl cotransport inhibitors bumetanide (100 microM) and furosemide (1 mM). The effects of the peptidoleukotrienes on Isc and transepithelial conductance were concentration-dependent with maximal effects occurring at 10 microM. Half-maximal effects were produced at 30 nM for LTC4, 50 nM for LTD4 and 450 nM for LTE4. The secretory responses to both LTD4 and LTE4 were antagonized in a concentration-dependent manner by the LTD4/LTE4 receptor antagonist, SK&F 104353 (2(S)-hydroxy-3-(R)-[(2-carboxyethyl)thio]-3-[2-(8 phenyloctyl)phenyl]propanoic acid). Complete inhibition of the LTD4 and LTE4 effects were observed at 0.1 microM SK&F 104353 and half-maximal effects were achieved at 0.6 nM SK&F 104353. At 10 microM SK&F 104353 only 50% inhibition of the LTC4-induced increase in Isc was observed. These results suggest the peptidoleukotrienes stimulate colonic Cl- secretion by receptor-mediated mechanisms and that receptors for LTC4 are distinct from those mediating the action of LTD4/LTE4.

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Phospholamban, the putative regulatory proteolipid of the Ca2+/Mg2+ ATPase in cardiac sarcoplasmic reticulum, was selectively phosphorylated by a Ca2+/calmodulin (CaM)-dependent protein kinase associated with a cardiac membrane preparation. This kinase also catalyzed the phosphorylation of two exogenous proteins known to be phosphorylated by the multifunctional Ca2+/CaM-dependent protein kinase II (Ca2+/CaM-kinase II), i.e., smooth muscle myosin light chains and glycogen synthase a. The latter protein was phosphorylated at sites previously shown to be phosphorylated by the purified multifunctional Ca2+/CaM-kinase II from liver and brain. The membrane-bound kinase did not phosphorylate phosphorylase b or cardiac myosin light chains, although these proteins were phosphorylated by appropriate, specific calmodulin-dependent protein kinases added exogenously. In addition to phospholamban, several other membrane-associated proteins were phosphorylated in a calmodulin-dependent manner. The principal one exhibited a Mr of approximately 56,000, a value similar to that of the major protein (57,000) in a partially purified preparation of Ca2+/CaM-kinase II from the soluble fraction of canine heart that was autophosphorylated in a calmodulin-dependent manner. These data indicate that the membrane-bound, calmodulin-dependent protein kinase that phosphorylates phospholamban in cardiac membranes is not a specific calmodulin-dependent kinase, but resembles the multifunctional Ca2+/CaM-kinase II. Our data indicate that this kinase may be present in both the particulate and soluble fractions of canine heart.

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A variety of circumstances renders the ileum dysfunctional or necessitates ileal resection. Loss of this tissue is manifested by a group of disorders collectively termed the short-bowel syndrome. Traditionally, individuals who have sustained such functional loss learn to manage their altered bowel in relative isolation from the health care team. Inadequate management can lead to rehospitalization or to chronic systemic imbalances which predispose these individuals to additional disease processes. The purpose of this article is to review the physical consequences of functional loss of the ileum and the essential elements in the assessment and management of individuals who have sustained such losses. This should better prepare nurse practitioners to help these individuals learn how to minimize dysfunction and prevent additional disease.

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A method is described which separates the various phosphorylation sites in glycogen synthase based on reverse phase high-performance liquid chromatography (HPLC) of tryptic 32P-peptides. Using this method we studied the phosphorylation site specificities of the kinases which act on glycogen synthase. The cAMP-dependent protein kinase phosphorylated sites 1a, 1b, and 2, whereas casein kinase II phosphorylated only site 5. Two calcium, calmodulin-dependent kinases, phosphorylase kinase and liver calmodulin-dependent synthase kinase, both phosphorylated site 2, and the latter enzyme also phosphorylated site 1b. A cAMP-independent kinase (kinase 4) purified from liver also specifically phosphorylated site 2. Synthase kinase 3 catalyzed the phosphorylation of only site 3. This HPLC method was also used to establish that all of these sites were subject to phosphorylation in vivo.

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A high-speed supernatant from rat liver contains at least two latent phosphorylase phosphatases the activities of which are revealed by treatment with ethanol, urea, mercaptoethanol or trypsin. This fraction also contains at least one protein which, after heating, inhibits to various degrees the activated form(s) of the two phosphatases. The two latent enzymes can be separated by cellulase-phosphate chromatography and can be differentiated by their preferential activation by ethanol or trypsin and by their different sensitivity to the inhibitory protein after ethanol activation. Activation of the latent phosphorylase phosphatases by ethanol, urea or mercaptoethanol is not accompanied by the destruction of the precursor of the inhibitory protein whereas activation by trypsin is. However, trypsin treatment of fractions previously activated by ethanol decreases their activity and also increases their sensitivity to the inhibitory protein in a way which is unrelated to the destruction of this inhibitor. Furthermore, some protein fractions, almost free of the precursor of the inhibitory protein can be readily activated by trypsin. In is concluded that the activation of the latent phosphorylase phosphorylase phosphatases is unrelated to the destruction of the inhibitory protein.

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Rat liver 6-phosphofructokinase (ATP-D-fructose-6-phosphate 1-phosphotransferase, EC 2.7.1.11) was partially purified free of interfering enzymes by a rapid procedure. Fructose 2,6-bisphosphate, at micromolar concentrations, greatly stimulated the enzyme by increasing its affinity for fructose 6-phosphate and relieving the inhibition by ATP. Its action was synergistic with that of AMP. As a stimulator of liver phosphofructokinase, fructose 2,6-bisphosphate was approximately 1000- and 2500-fold more efficient than fructose 1,6-bisphosphate and glucose 1,6-bisphosphate, respectively. The concentration at which a half-maximal effect was obtained with the hexose bisphosphates was dependent upon the experimental conditions. It was relatively high at physiological concentrations of substrates, AMP, and Pi, and under these conditions the positive effect of fructose 1,6-bisphosphate was no longer detectable. This was probably due to the negative effect of fructose 1,6-bisphosphate as a reaction product inhibitor. It is concluded that fructose 2,6-bisphosphate rather than fructose 1,6-bisphosphate controls, in association with other effectors, the activity of phosphofructokinase in the liver.

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