G. Trevor Cottrell scite author profile

Connexin (Cx)43 gap junction channels are phosphorylated by numerous protein kinases, with the net effect typically being a reduction in gap junction communication (GJC). This reduction must result from a decrease in channel open probability, unitary conductance, or permselectivity, because previous results suggest that channel number is unaffected. Coexpression of v-Src with wild-type Cx43 (Cx43-wt) but not Cx43 with tyrosine to phenylalanine substitutions at 247 and 265 (Cx43-Y247,265F) resulted in reduced electrical and dye coupling but no change in single-channel amplitudes. EGF treatment of cells expressing Cx43-wt but not Cx43 with serine to alanine substitutions at 255, 279, and 282 (Cx43-S255,279,282A) resulted in reduced GJC, also with no change in single-channel amplitude. Dye coupling was reduced to a far greater extent than electrical coupling, suggesting that channel selectivity was also altered but with minimal effect on unitary conductance. The absence of Src- and MAPK-induced reductions in single-channel amplitude suggests that the decreases in GJC induced by these kinases result from reduced channel open probability and possibly altered selectivity.

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The Subfornical Organ: A Central Target for Circulating Feeding Signals

Pulman¹,

Fry²,

Cottrell³

et al. 2006

J. Neurosci.

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The mechanisms through which circulating ghrelin relays hunger signals to the CNS are not yet fully understood. In this study, we have examined the potential role of the subfornical organ (SFO), a circumventricular structure that lacks the normal blood-brain barrier, as a CNS site in which ghrelin acts to influence the hypothalamic centers controlling food intake. We report that ghrelin increased intracellular calcium concentrations in 28% (12 of 43) of dissociated SFO neurons and that the SFO expresses mRNA for the growth hormone secretagogue receptor. Whole-cell patch recordings from SFO neurons demonstrated that in 29% (9 of 31) of neurons tested ghrelin induced a mean depolarization of 7.4 Ϯ 0.69 mV, accompanied by an increase in action potential frequency. Voltage-clamp recordings revealed that ghrelin activates a putative nonselective cationic conductance.Previous reports that the satiety signal amylin exerts similar excitatory effects on SFO neurons led us to examine whether these two peptides influence different subpopulations of SFO neurons. Concentration-dependent depolarizing effects of amylin were observed in 59% (28 of 47) of SFO neurons (mean depolarization, 8.32 Ϯ 0.60 mV). In contrast to ghrelin, voltage-clamp recordings suggest that amylin influences a voltage-dependent current activated at depolarized potentials. We tested single SFO neurons with both peptides and identified cells responsive only to ghrelin (n ϭ 9) and only to amylin (n ϭ 7) but no cells that responded to both peptides. These data support a role for the SFO as a center at which ghrelin and amylin may influence separate subpopulations of neurons to influence the hypothalamic regulation of feeding.

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Heterotypic gap junction channel formation between heteromeric and homomeric Cx40 and Cx43 connexons

Cottrell

Burt

2001

American Journal of Physiology-Cell Physiology

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Recent evidence indicating formation of functional homomeric/heterotypic gap junction channels by connexin40 (Cx40) and connexin43 (Cx43) raises the question of whether data previously interpreted as support for heteromeric channel formation by these connexins might not instead reflect the activity of homomeric/heterotypic channels. To address this question and to further characterize the behavior of these channels, we used dual whole cell voltage-clamp techniques to examine the junctions formed between cells that express only Cx40 (Rin40) or Cx43 (Rin43) and compared the results with those obtained when either of these cell types was paired with cells that naturally express both connexins (A7r5 cells). Rin40/Rin43 cell pairs formed functional gap junctions that displayed a strongly asymmetric voltage-dependent gating response. Single-channel event amplitudes ranged between 34 and 150 pS, with 90- to 130-pS events predominating. A7r5/Rin43 and A7r5/Rin40 cell pairs had voltage-dependent gating responses that varied greatly, with most pairs demonstrating strong asymmetry. These cell pairs exhibited a variety of single-channel events that were not consistent with homomeric/homotypic Cx40 or Cx43 channels or homomeric/heterotypic Cx40/Cx43 channels. These data indicate that Cx40 and Cx43 form homomeric/heterotypic as well as heteromeric/heterotypic channels that display unique gating and conductance properties.

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