The role of the inositol phosphate cascade in visual excitation of invertebrate microvillar photoreceptors.

Frank, Tamara M.; Fein, Alan M.

doi:10.1085/jgp.97.4.697

Cited by 85 publications

(75 citation statements)

References 76 publications

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“…It has recently been proposed that there may be two separate second messenger pathways leading to activation of inward current in Limulus photoreceptors, one involving calcium ions (released by inositol trisphosphatase), the other involving another second messenger (Frank and Fein, 1991). It has further been suggested (Nagy and Stieve, 1990) that there are 10-and 29-pS single-channel events, that these are due to two independent types of light-dependent channel (but no evidence against these being substates of the same channel was presented), and that these might be activated by different second messengers.…”

Section: Discussionmentioning

confidence: 99%

Multiple conductance states of the light-activated channel of Limulus ventral photoreceptors. Alteration of conductance state during light.

Johnson

Bacigalupo

Vergara

et al. 1991

The Journal of General Physiology

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A B S T R A C T The properties of light-dependent channels in Limulus ventral photoreceptors have been studied in cell-attached patches. Two sizes of single-channel events are seen during illumination. Previous work has characterized the large (40 pS) events; the goal of the current work was to characterize the small (15 pS) events and determine their relationship to the large events. The small events are activated by light rather than as a secondary result of the change in membrane voltage during light. The mean open time of the small events is 1.34 -+ 0.49 ms (mean_ SD, n = 15), ~50% of that of the large events. The large and small events have the same reversal potential and a similar dependence of open-state probability on voltage. Evidence that these events are due to different conductance states of the same channel comes from analysis of relatively infrequent events showing a direct transition between the 15 and 40-pS levels. Furthermore, large and small events do not superpose, even at positive voltages when the probability of being open is very high, as would be predicted if the two-sized events were due to independent channels. Expression of the different conductance states is not random; during steady illumination there are alternating periods of several hundred milliseconds in which there are consecutive, sequential large events followed by periods in which there are consecutive, sequential small events. At early times during the response to a step of light, the large conductance state is preferentially expressed. At later times, there is an increase in the relative contribution of the low conductance state. These findings indicate that there is a process that changes the preferred conductance state of the channel. This alteration has functional importance in the process of light adaptation.Address reprint requests to Dr.

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Section: Discussionmentioning

confidence: 99%

Multiple conductance states of the light-activated channel of Limulus ventral photoreceptors. Alteration of conductance state during light.

Johnson

Bacigalupo

Vergara

et al. 1991

The Journal of General Physiology

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“…Their size was not changed either in low external calcium concentration or after the microinjection of 1.2 m M E G TA . Also, the transient and plateau phases in the response to a long stimulus behave differenti ally to several treatments and were therefore at tributed to different mechanisms (Frank and Fein, 1991;Faddis and Brown, 1993). Contzen et al (1995) proposed that the transient is built by the C2 component while the plateau consists of Q or C3 or a mixture of both.…”

Section: Depleting the Internal Calcium Storesmentioning

confidence: 99%

“…Injection of M. D orlöchter et al ■ Calcium -Independent Photoresponse in Lim ulus Ventral Photoreceptor 447 calcium into ventral photoreceptors increased the light response in calcium-deprived cells, or elicited inward currents similar to those caused by light so that an obligatory role for calcium in excitation was proposed (Bolsover and Brown, 1985;Payne, Corson and Fein, 1986b;Shin, Richard and Lisman, 1993). On the other hand, application of calcium buffer or agents blocking calcium release did not completely inhibit the photocurrent indi cating calcium-independent initiation of a light re sponse (Frank and Fein, 1991;Contzen, Richter and Nagy, 1995).…”

Section: Introductionmentioning

confidence: 99%

Effects of Calcium and Cyclopiazonic Acid on the Photoresponse in the Limulus Ventral Photoreceptor

Dorlöchter

Yuan

Stieve

1999

Zeitschrift Für Naturforschung C

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Phototransduction, Current Components, Light Adaptation, Bumps, CPA 1. Single-photon responses (bumps) and small macroscopic photocurrents were studied in ventral photoreceptors of the horseshoe crab Limulus. Lowering the calcium concentration in the bath from 10 mM to 250 fiM led to increased bump size. Adaptation of the cells by a moderately bright conditioning flash was not impaired.2. Pressure-injection of 1.2 mM EG TA into the dark-adapted cells resulted in reduced bump size. EG TA weakened the effect of the conditioning light flash although it did not completely abolish light adaptation.3. The microsomal calcium-ATPase inhibitor cyclopiazonic acid strongly desensitized the cells, and bumps were suppressed below detection. When the bathing saline contained 10 m M calcium, macroscopic photoresponses after extracellular application of the agent had ampli tudes smaller than under control conditions but normal response kinetics: The response to a light step still consisted of a fast transient photocurrent and a much smaller plateau. How ever, when applied in calcium-free bathing saline, cyclopiazonic acid additionally influenced the waveform of the photoresponse. The clear distinction between transient and plateau was no longer possible, and the photocurrent appeared "square".4. Our results support the idea that a transient elevation of the cytosolic calcium concentra tion is obligatory for light adaptation in the ventral photoreceptor. It is also obligatory for the generation of the so-called C2 component of the photocurrent which is represented by "standard" bumps and the fast transient phase of a prolonged response. However, a rise in cytosolic calcium appears not necessary for the initiation of a slow electrical photoresponse.

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“…A digestion pattern similar to '. This finding, the role of inositol phosphates in invertebrate phototransduction [9] and evidence of the complete pathway in rods [lo] InP,, and omcr chemicals were obtained from Sigma Chemical Cb..…”

Section: Introductionmentioning

confidence: 99%

Binding of inositol phosphates to arrestin

et al. 1991

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Arrcstin binds to phosphorylavzd rhodopsin in its light-activated form (melarhodopsin II), blocking thcrcby its interaction with the G-protein, mmsducin. In this study, WC show thal highly phosphorylatcd forms of inositol compete against the arrcslin-rhodopsin inlcraction. Competition curves and direct binding assays with free arrcslin consislcntly yield affinities in the micromolar range; for example, inositol 1.3.4.5-telrakisphospharc (InP,) and inosilol hcxakisphosphalc (InP, bind to arrcstin with dissociation constants of 12pM and 5 PM. respectively. Only a small control amount or inosilol phosphates is bound. when arrcstin interacts wilh phosphorylatcd rhodopsin.This argues for a release of bound inositol phosphates by imernclion with rhodopsin. Transducin, rhodopsin kinasc, or cyclic GMP phosphodicsterasc arc noi affected by inositol phosphates. These observations open a new way 10 purify arrcsiin and to inhibh its imcraction with rhodopsin. Their physiological significance dcscrvcs further inscsligalion.

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The role of the inositol phosphate cascade in visual excitation of invertebrate microvillar photoreceptors.

Cited by 85 publications

References 76 publications

Multiple conductance states of the light-activated channel of Limulus ventral photoreceptors. Alteration of conductance state during light.

Multiple conductance states of the light-activated channel of Limulus ventral photoreceptors. Alteration of conductance state during light.

Effects of Calcium and Cyclopiazonic Acid on the Photoresponse in the Limulus Ventral Photoreceptor

Binding of inositol phosphates to arrestin

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