Pjm Vanhaastert scite author profile

Chemoattractants transiently activate guanylyl cyclase in Dictyostelium discoideum cells. Mutant analysis demonstrates that the produced cGMP plays an essential role in chemotactic signal transduction, controlling the actomyosin-dependent motive force. Guanylyl cyclase activity is associated with the particulate fraction of a cell homogenate. The addition of the cytosol stimulates guanylyl cyclase activity, whereas the cytosol plus ATP/Mg 2؉ inhibits enzyme activity. We have analyzed the regulation of guanylyl cyclase in chemotactic mutants and present evidence that a cGMP-binding protein mediates both stimulation and ATP-dependent inhibition of guanylyl cyclase.Upon chromatography of cytosolic proteins, cGMP binding activity co-elutes with both guanylyl cyclasestimulating and ATP-dependent-inhibiting activities. In addition, ATP-dependent inhibition of guanylyl cyclase activity is enhanced by the cGMP analogue 8-Br-cGMP, suggesting that a cGMP-binding protein regulates guanylyl cyclase activity. Mutant KI-4 has an aberrant cGMP binding activity with very low K d and shows a very small chemoattractant-mediated cGMP response; the cytosol from this mutant does not stimulate guanylyl cyclase. In contrast to KI-4, the aberrant cGMP binding activity of mutant KI-7 has a very high K d and chemoattractants induce a prolonged cGMP response. The cytosol of this mutant stimulates guanylyl cyclase activity, but ATP does not inhibit the enzyme. Thus, two previously isolated chemotactic mutants are defective in the activation and inhibition of guanylyl cyclase, respectively. The positive and negative regulation of guanylyl cyclase by its product cGMP may well explain how cells process the temporospatial information of chemotactic signals, which is necessary for sensing the direction of the chemoattractant.

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Dynamics and function of the inositolcycle in Dictyostelium discoideum

Bominaar¹,

Vanderkaay²,

Vanhaastert³

1991

Dev. Genet.

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[16] Phospholipase C activity in Dictyostelium discoideum using endogenous nonradioactive phosphatidylinositol 4,5-bisphosphate as substrate

Bominaar

Vanhaastert²

1994

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Kinetics and nucleotide specificity of a surface cAMP binding site in , which is not down-regulated by cAMP

Vanmentscohen¹,

Genieser²,

Jastorff³

et al. 1991

FEMS Microbiology Letters

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Dictyostelium cells exhibit four types of kinetically distinct surface cAMP binding sites, the AH, AL, BS, and BSS sites, which are down-regulated during persistent stimulation with cAMP. Although most cAMP-induced responses are subject to desensitization during constant stimulation, some responses, notably the induction of post-aggregative gene expression, require persistent cAMP stimulation. The kinetics and specificity of residual cAMP-binding activity in cells treated for 4 h with micromolar cAMP were investigated. It was found that around 4000 rapidly dissociating binding sites per cell with an affinity of about 300 nM are retained after down-regulation. The nucleotide specificity of the remaining sites was very similar, but not completely identical to the AH, AL and B sites, suggesting that these sites belong to the same class of cell surface cAMP receptors and may be utilized to mediate responses requiring continuous cAMP stimulation.

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Pjm Vanhaastert

[30] G-Protein assays in Dictyostelium

Regulation of Guanylyl Cyclase by a cGMP-binding Protein during Chemotaxis in Dictyostelium discoideum

Dynamics and function of the inositolcycle in Dictyostelium discoideum

[16] Phospholipase C activity in Dictyostelium discoideum using endogenous nonradioactive phosphatidylinositol 4,5-bisphosphate as substrate

Kinetics and nucleotide specificity of a surface cAMP binding site in , which is not down-regulated by cAMP

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