Substituted benzyl acetates: A new class of compounds that reduce gap junctional conductance by cytoplasmic acidification

D. C. Spray; J. Nerbonne; A. Campos De Carvalho; A. L. Harris; M. V. Bennett

doi:10.1083/jcb.99.1.174

Substituted benzyl acetates: A new class of compounds that reduce gap junctional conductance by cytoplasmic acidification

D. C. Spray, J. Nerbonne, A. Campos De Carvalho, A. L. Harris, M. V. Bennett

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Abstract

Conductance of gap junctions in many preparations has been shown to be sensitive to cytoplasmic pH, decreasing as pH decreases below 7.5 in fish and amphibian embryos and below 7.1 in crayfish septate axon. We have found a new class of compounds, benzyl acetate derivatives, that reversibly decrease junctional conductance, g(j), when applied in low concentration (~ 1 mM). Simultaneous intracellular pH (pH(i)) measurements show that the ester effects are attributable to reduction in pH(i). The sensitivity of g(i) to these compounds and the relative lack of side effects make these agents attractive for studies of the role played by gap junctions in normal tissue function. In addition, the finding of cytoplasmic acidification in response to cell exposure to esters suggests caution in interpretation of results obtained using esterified compounds for intracellular loading.

Original language	English (US)
Pages (from-to)	174-179
Number of pages	6
Journal	Journal of Cell Biology
Volume	99
Issue number	1 I
DOIs	https://doi.org/10.1083/jcb.99.1.174
State	Published - 1984
Externally published	Yes

ASJC Scopus subject areas

Cell Biology

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title = "Substituted benzyl acetates: A new class of compounds that reduce gap junctional conductance by cytoplasmic acidification",

abstract = "Conductance of gap junctions in many preparations has been shown to be sensitive to cytoplasmic pH, decreasing as pH decreases below 7.5 in fish and amphibian embryos and below 7.1 in crayfish septate axon. We have found a new class of compounds, benzyl acetate derivatives, that reversibly decrease junctional conductance, g(j), when applied in low concentration (~ 1 mM). Simultaneous intracellular pH (pH(i)) measurements show that the ester effects are attributable to reduction in pH(i). The sensitivity of g(i) to these compounds and the relative lack of side effects make these agents attractive for studies of the role played by gap junctions in normal tissue function. In addition, the finding of cytoplasmic acidification in response to cell exposure to esters suggests caution in interpretation of results obtained using esterified compounds for intracellular loading.",

author = "Spray, {D. C.} and J. Nerbonne and {Campos De Carvalho}, A. and Harris, {A. L.} and Bennett, {M. V.}",

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T1 - Substituted benzyl acetates

T2 - A new class of compounds that reduce gap junctional conductance by cytoplasmic acidification

AU - Spray, D. C.

AU - Nerbonne, J.

AU - Campos De Carvalho, A.

AU - Harris, A. L.

AU - Bennett, M. V.

PY - 1984

Y1 - 1984

N2 - Conductance of gap junctions in many preparations has been shown to be sensitive to cytoplasmic pH, decreasing as pH decreases below 7.5 in fish and amphibian embryos and below 7.1 in crayfish septate axon. We have found a new class of compounds, benzyl acetate derivatives, that reversibly decrease junctional conductance, g(j), when applied in low concentration (~ 1 mM). Simultaneous intracellular pH (pH(i)) measurements show that the ester effects are attributable to reduction in pH(i). The sensitivity of g(i) to these compounds and the relative lack of side effects make these agents attractive for studies of the role played by gap junctions in normal tissue function. In addition, the finding of cytoplasmic acidification in response to cell exposure to esters suggests caution in interpretation of results obtained using esterified compounds for intracellular loading.

AB - Conductance of gap junctions in many preparations has been shown to be sensitive to cytoplasmic pH, decreasing as pH decreases below 7.5 in fish and amphibian embryos and below 7.1 in crayfish septate axon. We have found a new class of compounds, benzyl acetate derivatives, that reversibly decrease junctional conductance, g(j), when applied in low concentration (~ 1 mM). Simultaneous intracellular pH (pH(i)) measurements show that the ester effects are attributable to reduction in pH(i). The sensitivity of g(i) to these compounds and the relative lack of side effects make these agents attractive for studies of the role played by gap junctions in normal tissue function. In addition, the finding of cytoplasmic acidification in response to cell exposure to esters suggests caution in interpretation of results obtained using esterified compounds for intracellular loading.

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Substituted benzyl acetates: A new class of compounds that reduce gap junctional conductance by cytoplasmic acidification

Abstract

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