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1

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Pharmacological Actions of Calmidazolium, a Calmodulin Antagonist, in Cardiovascular System (2000)

Sunagawa, Masanori ; Kosugi, Tadayoshi ; Nakamura, Mariko ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Cardiovascular drug reviews 18 (2000), S. 0

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ISSN: 1527-3466

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: The effects of calmidazolium (CMZ) on various cellular functions in many cells, especially in heart, vascular smooth muscle (VSM), endothelial, and juxtaglomerular (JG) cells are summarized in this review. Many intracellular Ca2+ signals are mediated by the ubiquitous calcium binding protein, calmodulin (CaM), which functions as a Ca2+-dependent regulator of a number of pathways including cyclic nucleotide metabolism, ion transport, protein phosphorylation/dephosphorylation cascades, cytoskeletal function, cell proliferation, and G protein-mediated signaling. Therefore, many CaM-dependent cellular functions can be modulated by calmodulin antagonists, including CMZ. The mechanism by which CaM antagonists inhibit CaM activity involves a direct binding of the drugs to CaM. Most CaM antagonists, including CMZ, contain a hydrophobic benzene-ring structure. Therefore, lipid solubility may be one determinant of the ability of a drug to inhibit CaM, but other factors, such as its chemical structure or its ionic characteristics, are also involved. CMZ exerts its inhibitory effect on CaM-regulated enzymes, not only via its binding to CaM, but probably also directly by interfering with the CaM-target enzyme. However, CMZ has also some nonspecific effects, such as blockade of L-type Ca2+, K+, Na+ channels, and sarcoplasmic reticulum (SR) Ca2+-release channels. Therefore, it should be noted that CMZ, at high concentrations, may have other pharmacologic effects as well.〈section xml:id="abs1-2"〉〈title type="main"〉SUMMARY AND CONCLUSIONSIn this review, we summarized the effect of CMZ on various cellular functions in many cells, especially those in the cardiovascular system (heart cells, VSM cells, endothelial cells, and JG cells). We tried to cover most of the effects of CMZ (acting by a variety of mechanisms) on the ion channels and ion pumps of cardiac muscle and vascular smooth muscle cells. CMZ affects many cellular functions via inhibition of CaM (Fig. 5). Since CaM is a ubiquitous calcium-binding protein, which functions as a Ca2+-dependent regulator of several pathways (such as MLCK, CaMK, and type I PDE), many CaM-dependent cellular functions are modulated by the drug. For example, CMZ inhibits the activation of brain PDE by CaM with a 500 times higher potency than trifluoperazine. Therefore, CMZ seems to be the most powerful inhibitor of CaM-regulated cellular functions. However, CMZ, has also some nonspecific effects, such as blockade of CaL channels, K+ channels, Na+ channels, and SR Ca2+-release channels. With respect to CMZ blockade of CaL channels, CMZ reduces CaL current almost as much as CaL channel blockers (DHPs). However, when CMZ was introduced intracellularly via patch pipette, CMZ actually stimulated CaL current through inhibition of CaM-dependent PDE (type I), which in turn stimulates cAMP/PKA system.In summary, the major goal of this review was to provide the reader with various specific and nonspecific actions of CMZ on cardiovascular system. We emphasized that at high concentrations CMZ exerts many different pharmacologic effects.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1527-3466.2000.tb00044.x

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2

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Developmental Changes and Modulation through G-Proteins of the Hyperpolarization-Activated Inward Current in Embryonic Chick Heart (1993)

SATOH, HIROYASU ; SPERELAKIS, NICHOLAS

Oxford, UK : Blackwell Publishing Ltd

Annals of the New York Academy of Sciences 707 (1993), S. 0

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ISSN: 1749-6632

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Natural Sciences in General

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1749-6632.1993.tb38085.x

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3

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A novel class (H 3 ) of histamine receptors on perivascular nerve terminals (1987)

Ishikawa, Shiro ; Sperelakis, Nicholas

[s.l.] : Nature Publishing Group

Nature 327 (1987), S. 158-160

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] Under normal conditions, vascular smooth muscle (VSM) cells of the guinea-pig mesenteric artery were found to be electrically quiescent unless electrically stimulated and had a resting potential of —74.0±0.3 mV (n = 55). Perivascular nerve stimulation with a brief impulse evoked an excitatory ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/327158a0

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4

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Modulation of single slow (L-type) calcium channels by intracellular ATP in vascular smooth muscle cells (1989)

Ohya, Yusuke ; Sperelakis, Nicholas

Springer

Pflügers Archiv 414 (1989), S. 257-264

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ISSN: 1432-2013

Keywords: Smooth muscle cell ; Vascular smooth muscle ; ATP ; Phosphorylation ; Ca2+ channels ; Slow Ca2+ channels ; L-type Ca2+ channels ; Bay-K-8644 ; Single channel recording

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Involvement of ATP in the regulation of slow (L-type) Ca2+ channels of vascular smooth muscle cells was investigated by recording single Ca2+ channel currents (single-channel conductance of 18 pS) using a patch clamp technique. In the cell-attached configuration, intracellular composition was modified by permeabilizing the cell membrane with mechanical disruption at one end of the cell. Single cells were freshly isolated from guinea-pig portal vein by collagenase treatment. For the channel recordings, the pipette solution contained 100 mM Ba2+ and the bath contained K+-rich solution (with 5 mM EGTA) to depolarize the membrane to near 0 mV. The channel activity decreased usually within 3 min after permeabilizing the cell end and exposure to ATP-free bath solution. If ATP (1–5 mM) was applied to the bath (access to cell interior) before complete disappearance of channel activity, channel activity was partially recovered. ATP did not change the current amplitude (i) or the mean open time of the channels, whereas the number of channels available for opening and/or the probability of their being open (NP o) were increased by ATP. A non-hydrolyzable analogue of ATP, AMP-PNP, did not exert an ATP-like effect; ATP-γ-S had a weak effect. With 1 μM Bay-K-8644 (Ca2+ channel agonist) in the pipette, the activity of the Ca2+ channel was high; such activity persisted for more than 10 min after permeabilizing the cell and exposting to ATP-free solution containing KCN (1 mM) and 2-deoxy-d-glucose (10 mM). These results indicate that activation of slow Ca2+ channels requires ATP. The effect of ATP may be exerted by phosphorylation and/or an energy-requiring step. Bay-K-8644 may change the nature of the slow Ca2+ channel, making it resistant to rundown.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00584624

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5

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Tetrodotoxin differentially blocks peak and steady-state sodium channel currents in early embryonic chick ventricular myocytes (1989)

Josephson, Ira R. ; Sperelakis, Nicholas

Springer

Pflügers Archiv 414 (1989), S. 354-359

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ISSN: 1432-2013

Keywords: Ventricular cells ; Sodium channels ; Development

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Single ventricular myocytes were dissociated from 3-day-old embryonic chick hearts and maintained in culture for 9–21 h. The whole-cell patch clamp method was used to record tetrodotoxin (TTX)-sensitive fast Na+ currents. The peak Na+ current recorded at −20 mV ranged from 10 to 70 μA/cm2. At more negative potentials, a component of the current decayed very slowly, resulting in a significant steady-state or “late” Na+ current. The origin of the late Na+ current was revealed through the examination of single Na+ channel currents recorded in outside-out membrane patches. The single Na+ channel conductance was 20 pS. A high percentage of the trials (∼ 16%) displayed multiple reopenings of a single Na+ channel, resulting in bursts of current lasting for ≥150 ms. The frequency distributions of the Na+ channel open-times were bi-exponential. The burst-like mode of Na+ channel activity (which underlies the slowly- or non-inactivating currents recorded macroscopically), was blocked to a greater degree by TTX, compared to the peak current. The results suggest that differential blockade may occur as a result of the slow binding and increased affinity of TTX to the open Na channel.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00584639

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6

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Potassium currents in rat colonic smooth muscle cells and changes during development and aging (1995)

Xiong, Zhiling ; Sperelakis, Nicholas ; Noffsinger, Amy ; [et al.]

Springer

Pflügers Archiv 430 (1995), S. 563-572

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ISSN: 1432-2013

Keywords: K+ channels ; K+ current density ; Transient outward current ; 4-Aminopyridine ; Whole-cell voltage clamp ; Colonic smooth muscle ; Intestinal smooth muscle

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In a previous study on freshly isolated single smooth muscle cells from the circular layer of the rat distal colon, we reported that the L-type Ca2+ current density increased during development and gradually declined with further aging [ZI Xiong, N Sperelakis, N Noffsinger, C Fenoglio-Preiser (1993) Am J Physiol 265: C617–C625]. Since K+ current plays a key role in controlling excitability of the cells and hence the motility of the colon, in the present study the voltage-gated K+ channel currents, (I K) were investigated using the whole-cell voltage-clamp technique in colonic myocytes from rats of different ages. A Ca2+-sensitive K+ current [I K(Ca)] and two kinds of Ca2+-insensitive outward K+ currents were identified and characterized. I K(Ca) was recorded at potentials more positive than −40 mV in Ca2+-containing bath solution, and was blocked by Ca2+ channel antagonists and tetraethylammonium ion (TEA+). After removing Ca2+ from the bath solution and using a high ethylenebis(oxonitrilo)tetraacetate (EGTA, 4 mM) concentration in the pipette, two types of Ca2+-insensitive I K were recorded. The first and faster component was usually activated at potentials more positive than −50 mV, and was more sensitive to 4-aminopyridine (4-AP). In contrast, the second and slower (delayed) component was activated at potentials more positive than −30 mV, and was more sensitive to TEA. The total density of the Ca2+-insensitive I K component decreased dramatically during the neonatal period: from 32.2±3.2 pA/pF in 3-day-old rats to 17.8±2.6 pA/pF in 40-day-old rats; there was no further decline during aging (up to 480 days). This total I K decline was due primarily to a decline in the 4-AP-sensitive component; the TEA-sensitive component remained unchanged at all ages. The possible physiological implications of the decline in density of the 4-AP-sensitive I K component during neonatal development are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00373893

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7

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Long openings of calcium channels in fetal rat ventricular cardiomyocytes (1995)

Masuda, Hiroshi ; Sumii, Kotaro ; Sperelakis, Nicholas

Springer

Pflügers Archiv 429 (1995), S. 595-597

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ISSN: 1432-2013

Keywords: Ca2+ channel currents ; Patch clamp ; Fetal cardiomyocytes ; Single channels ; Mode-2 behavior

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Whole-cell and single-channel Ca2+ currents (ICa) of single fetal (12 – 18 days) and neonatal (1 – 10 d) rat ventricular myocytes were recorded using patch clamp techniques. Whole-cell ICa density increased markedly during the fetal period and remained almost constant during the neonatal period. In cell-attached patch recordings (with 110 mM Ba2+ in the pipette), the L-type Ca2+ channels, observed on both fetal d-12 and neonatal d 5, had the same conductance (23 pS). On fetal d-12, many relatively long openings were observed in addition to brief openings, whereas on neonatal d-5, long openings were less observed and brief openings dominated. Therefore, long openings of the Ca2+ channels occur in early development in rat heart cells, similar to that reported for chick hearts [7, 8]. The increase of the whole-cell current amplitude observed during development may be due to an increase in available channel number.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00704167

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8

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Angiotensin II stimulation of Ca2+-channel current in vascular smooth muscle cells is inhibited by lavendustin-A and LY-294002 (1999)

Seki, T. ; Yokoshiki, Hisashi ; Sunagawa, Masanori ; [et al.]

Springer

Pflügers Archiv 437 (1999), S. 317-323

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ISSN: 1432-2013

Keywords: Key words Angiotensin II ; Phosphatidylinositol-3-kinase ; Tyrosine kinase ; Protein kinase C ; Calcium channel

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Angiotensin II (AngII) is coupled to several important intracellular signaling pathways, and increases intracellular Ca2+. In vascular smooth muscle (VSM) cells, AngII is known to activate enzymes such as tyrosine protein kinase (Tyr-PK), phospholipase C (PLC), protein kinase C (PKC), and phophatidylinositol-3-kinase (PI-3-K). A non-receptor Tyr-PK, pp60c-src, and PKC have been reported to stimulate the Ca2+ channels in VSM cells. However, less is known about AngII action on the voltage-gated Ca2+ channels. The Ca2+-channel currents of a cultured rat aortic smooth muscle cell line, A7r5, were recorded using whole-cell voltage clamp. Application of 50 nM AngII significantly increased the amplitude of Ba2+ currents through the voltage-gated Ca2+ channels (I Ba) by 34.5±9.1% (n=10) within 1 min. In the presence of lavendustin-A (5 µM), a selective inhibitor of Tyr-PK, AngII failed to stimulate I Ba (n=5). AngII stimulation of I Ba was also prevented by (5 µM) LY-294002, an inhibitor of PI-3-K (n=5). In contrast, H-7 (30 µM), an inhibitor of PKC, did not prevent the effect of AngII on I Ba (n=6). These results suggest that AngII may stimulate the Ca2+ channels of VSM cells through Tyr-PK and PI-3-K under conditions that probably exclude participation of PK-C.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050785

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9

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Isoproterenol modulates the calcium channels through two different mechanisms in smooth-muscle cells from rabbit portal vein (1994)

Xiong, Zhiling ; Sperelakis, Nicholas ; Fenoglio-Preiser, Cecilia

Springer

Pflügers Archiv 428 (1994), S. 105-113

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ISSN: 1432-2013

Keywords: Ca2+ channels ; Ca2+ current ; G protein gating ; Isoproterenol ; Whole-cell voltage clamp ; Portal vein smooth muscle

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Previous data from our laboratory indicated that the slow Ca2+ channel of vascular smooth muscle cells was regulated by cyclic nucleotides. In the present study, the effects of isoproterenol (ISO) on L-type calcium current (I Ca(L)) were investigated in freshly-isolated single smooth-muscle cells from the rabbit portal vein using the whole-cell voltage-clamp technique. With high-Cs+ solution in the pipette and physiolocial salt solution (containing 2.0 mM Ca2+) in the bath, (I Ca(L)) was recorded. At a holding potential of −80 mV, low concentrations of ISO (⩽ 100 nM) increased I Ca, whereas higher concentrations (1–100 μM) transiently increased I Ca but then inhibited it persistently. At 10 μM ISO, I Ca was initially increased by 44±9%, and was subsequently decreased by 24±3%. Pretreatment of cells with 30 μM H-7 [1-(5-isoquinolinylsulfonyl)-2-methylpiperazine dihydrochloride] caused the first phase to persist and the second inhibitory phase to disappear. Intracellular application of 1 mM GDP[βS] (guanosine 5′-O-2-thiodiphosphate) abolished both phases of ISO action. In contrast, intracellular application of 100 μM GTP caused the initial stimulatory phase of ISO action to be significantly potentiated; the later inhibitory phase was slightly diminished. In addition, the activated G protein α subunit (Gsα ) mimicked the stimulatory effect of ISO. Pertussis toxin had no effect on either phase of the ISO action. These results suggest that ISO modulates the Ca2+ channel through mechanisms that involve the pertussis-toxin-insensitive G protein(s). That H-7, a nonspecific inhibitor of protein kinases, blocked the second phase but not the first phase indicates that the actions of ISO are mediated via two different pathways. One pathway (for inhibition) is more indirect, and may be mediated by the adenylate cyclase/cAMP/protein-kinase-A cascade. The other pathway (for stimulation) is more direct, and may reflect a type of G protein gating of the Ca2+ channel.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00374847

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Fast Na+ current in circular smooth muscle cells of the large intestine (1993)

Xiong, Zhiling ; Sperelakis, Nicholas ; Noffsinger, Amy ; [et al.]

Springer

Pflügers Archiv 423 (1993), S. 485-491

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ISSN: 1432-2013

Keywords: Fast Na+ channels ; Fast Na+ current ; Whole-cell voltage clamp ; Colonic smooth muscle ; Intestinal smooth muscle

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Whole-cell voltage clamp was carried out on freshly dispersed single smooth muscle cells from adult rat and human colons to investigate the regulation of the Ca2+ channels. In this study, we unexpectedly discovered the existence of a fast Na+ channel current. With normal physiological salt solution (PSS) plus 4-amino-pyridine (3 mM) in the bath and high-Cs+ solution in the pipette to inhibit outward K+ currents, an inward current possessing fast and slow components was observed when the cell membrane was depolarized to a value more positive than −20 mV from a holding potential of −100 mV. When Ca2+ ions were removed from the PSS, or when nifedipine (10 μM) and Ni2+ (30 μM) were simultaneously applied, the slow component disappeared and the fast component remained. The fast current component became almost completely inactivated within 10 ms. This fast component was dependent on extracellular Na+ concentration and was inhibited by tetrodotoxin (TTX) dose dependently (IC50 of 130 nM in rat and 14 nM in human). These results suggest that the slow component of inward current was a Ca2+ channel current, whereas the fast component was a TTX-sensitive fast Na+ channel current. The threshold voltage, the voltage for peak current, and the reversal potential for the fast Na+ current were, respectively, about −50, −20, and + 50 mV in rats, and −40, 0, and + 60 mV in humans. The incidence of cells possessing fast Na+ currents depended on the region of the colon. In rat proximal colon, the incidence was 64% (14 out of 22 cells tested); in distal colon, it was 10% (2 out of 21 cells tested). In humans, the incidence in the ascending colon was 73% (16 out of 22 cells tested), and in the descending colon was 22% (7 out of 32 cells tested). The densities of fast Na+ and Ca2+ currents were 3.2 and 4.5 pA/pF in rats and 1.0 and 1.4 pA/pF in humans, respectively. The ratio of both current densities (Na+ vs Ca2+) was 0.71, in both rats and humans. We conclude that the major ion channels associated with the generation of inward currents in the circular smooth muscle cells of rat and human colon are voltage-dependent Ca2+ channels and TTX-sensitive Na+ channels. The fast Na+ current may facilitate propagation of excitation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00374945

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