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Chemical Compound Review:

TRAM-34 1-[(2-chlorophenyl)-diphenyl- methyl]pyrazole

Synonyms: AC1LCVHZ, SureCN41130, CHEMBL498270, AG-E-94066, ANW-72309, ...

Beeton, C. et al., Wulff, H. et al., Köhler, R. et al., Wulff, H. et al., Halm, S.T. et al., et al.

Sandow, Goto, Rummery, Hill, Wulff, Knaus, Pennington, Chandy, Wulff, Miller, Hansel, Grissmer, Cahalan, Chandy,

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Disease relevance of C13784

This study presents the first evidence that a selective KCNN4 blocker, TRAM-34, confers protection against experimental autoimmune encephalomyelitis (EAE) in the mouse model [1].
Daily in vivo administration of TRAM-34 to rats significantly reduced intimal hyperplasia by approximately 40% at 1, 2, and 6 weeks after BCI [2].

High impact information on C13784

Specific and simultaneous blockade of the T cell channels by ShK or by a combination of ShK-Dap(22) plus TRAM-34 prevented lethal AT-EAE [3].
The combination of ShK-Dap(22) and TRAM-34 enhanced the suppression of MBP-stimulated T cell proliferation [3].
Using TRAM-34, we show that blocking IKCa1 in human lymphocytes, in the absence of P450-inhibition, results in suppression of mitogen-stimulated [(3)H]thymidine incorporation of preactivated lymphocytes with EC(50)-values of 100 nM-1 microM depending on the donor [4].
Responses were blocked by a combination of charybdotoxin plus apamin, or 1-[(2-chlorophenyl)diphenylmethyl]-1H-pyrazole (TRAM-34) plus apamin, or by blockade of gap junctions with the connexin (Cx)-mimetic peptides, (43)Gap26, (40)Gap27 and (37,43)Gap27 [5].
TRAM-34 at 0.5 muM, an inhibitor of K(Ca)3.1 (IK, Kcnn4) K(+) channels (H. Wulff, M. J. Miller, W. Hänsel, S. Grissmer, M. D. Cahalan, and K. G. Chandy. Proc Natl Acad Sci USA 97: 8151-8156, 2000), did not alter secretory I(sc) or G(t) in guinea pig or rat colon [6].

Biological context of C13784

Consistent with their channel phenotype, [(3)H]thymidine incorporation by MBP-stimulated chronically activated T cells was suppressed by the peptide ShK, a blocker of Kv1.3 and IKCa1, and by an analog (ShK-Dap(22)) engineered to be highly specific for Kv1.3, but not by a selective IKCa1 blocker (TRAM-34) [3].
Delineation of the clotrimazole/TRAM-34 binding site on the intermediate conductance calcium-activated potassium channel, IKCa1 [7].
Moreover, combined treatment with the Ca(2+)-activated K(+) channel inhibitors 1-[(2-chlorophenyl)diphenylmethyl]-1H-pyrazole (TRAM-34, 100 nM) and apamin (5 muM) significantly reduced vasodilatation without altering sensitivity to acrolein [8].
In the aortic VSMC cell line, A7r5 epidermal growth factor (EGF) induced IKCa1 upregulation and EGF-stimulated proliferation was suppressed by the selective IKCa1 blocker TRAM-34 [2].

Anatomical context of C13784

Consistent with their channel phenotypes, proliferation of naive and IgD(+)CD27(+) memory B cells is suppressed by the specific IKCa1 inhibitor TRAM-34 but not by the potent Kv1.3 blocker Stichodactyla helianthus toxin, whereas the proliferation of class-switched memory B cells is suppressed by Stichodactyla helianthus toxin but not TRAM-34 [9].
3. Expression and function of rIK1 and small-conductance K(Ca) (rSK3) were demonstrated in situ in single endothelial cells of rat carotid arteries (CA). rIK1-currents were blocked by TRAM-34 or TRAM-39, while rSK3 was blocked by apamin [10].
Blocking nitric oxide synthase (NOS) or guanylyl cyclase evoked smooth-muscle depolarization and constriction, with both hyperpolarization and relaxation to SLIGRL being abolished by TRAM-34 alone, whereas apamin had no effect [11].

Gene context of C13784

Combined IK(Ca) (1 microM TRAM-34) and SK(Ca) (100 nM apamin) blockade partially inhibited NO-independent relaxations, with residual relaxations sensitive to BK(Ca) or cytochrome P-450 inhibition (100 nM iberiotoxin, and 20 microM 17-ODYA or 10 microM MS-PPOH) [12].

References

Blocking ion channel KCNN4 alleviates the symptoms of experimental autoimmune encephalomyelitis in mice. Reich, E.P., Cui, L., Yang, L., Pugliese-Sivo, C., Golovko, A., Petro, M., Vassileva, G., Chu, I., Nomeir, A.A., Zhang, L.K., Liang, X., Kozlowski, J.A., Narula, S.K., Zavodny, P.J., Chou, C.C. Eur. J. Immunol. (2005) [Pubmed]
Blockade of the intermediate-conductance calcium-activated potassium channel as a new therapeutic strategy for restenosis. Köhler, R., Wulff, H., Eichler, I., Kneifel, M., Neumann, D., Knorr, A., Grgic, I., Kämpfe, D., Si, H., Wibawa, J., Real, R., Borner, K., Brakemeier, S., Orzechowski, H.D., Reusch, H.P., Paul, M., Chandy, K.G., Hoyer, J. Circulation (2003) [Pubmed]
Selective blockade of T lymphocyte K(+) channels ameliorates experimental autoimmune encephalomyelitis, a model for multiple sclerosis. Beeton, C., Wulff, H., Barbaria, J., Clot-Faybesse, O., Pennington, M., Bernard, D., Cahalan, M.D., Chandy, K.G., Béraud, E. Proc. Natl. Acad. Sci. U.S.A. (2001) [Pubmed]
Design of a potent and selective inhibitor of the intermediate-conductance Ca2+-activated K+ channel, IKCa1: a potential immunosuppressant. Wulff, H., Miller, M.J., Hansel, W., Grissmer, S., Cahalan, M.D., Chandy, K.G. Proc. Natl. Acad. Sci. U.S.A. (2000) [Pubmed]
Developmental changes in myoendothelial gap junction mediated vasodilator activity in the rat saphenous artery. Sandow, S.L., Goto, K., Rummery, N.M., Hill, C.E. J. Physiol. (Lond.) (2004) [Pubmed]
Distinct K+ conductive pathways are required for Cl- and K+ secretion across distal colonic epithelium. Halm, S.T., Liao, T., Halm, D.R. Am. J. Physiol., Cell Physiol. (2006) [Pubmed]
Delineation of the clotrimazole/TRAM-34 binding site on the intermediate conductance calcium-activated potassium channel, IKCa1. Wulff, H., Gutman, G.A., Cahalan, M.D., Chandy, K.G. J. Biol. Chem. (2001) [Pubmed]
Acrolein induces vasodilatation of rodent mesenteric bed via an EDHF-dependent mechanism. Awe, S.O., Adeagbo, A.S., D'Souza, S.E., Bhatnagar, A., Conklin, D.J. Toxicol. Appl. Pharmacol. (2006) [Pubmed]
K+ channel expression during B cell differentiation: implications for immunomodulation and autoimmunity. Wulff, H., Knaus, H.G., Pennington, M., Chandy, K.G. J. Immunol. (2004) [Pubmed]
Selective blockade of endothelial Ca2+-activated small- and intermediate-conductance K+-channels suppresses EDHF-mediated vasodilation. Eichler, I., Wibawa, J., Grgic, I., Knorr, A., Brakemeier, S., Pries, A.R., Hoyer, J., Köhler, R. Br. J. Pharmacol. (2003) [Pubmed]
Evidence for involvement of both IKCa and SKCa channels in hyperpolarizing responses of the rat middle cerebral artery. McNeish, A.J., Sandow, S.L., Neylon, C.B., Chen, M.X., Dora, K.A., Garland, C.J. Stroke (2006) [Pubmed]
A role for heterocellular coupling and EETs in dilation of rat cremaster arteries. McSherry, I.N., Sandow, S.L., Campbell, W.B., Falck, J.R., Hill, M.A., Dora, K.A. Microcirculation (New York, N.Y. : 1994) (2006) [Pubmed]

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