Time-dependent activation of feed forward inhibition in a looming-sensitive neuron

doi:10.1152/jn.00411.2005

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Time-dependent activation of feed forward inhibition in a looming-sensitive neuron

Fabrizio Gabbiani¹^*, Ivan Cohen², and Gilles Laurent³

¹ Neuroscience, Baylor College of Medicine, Houston, TX, USA; Computational and Applied Mathematics, Rice University, Houston, TX, USA
² Neuroscience, Baylor College of Medicine, Houston, TX, USA
³ Biology, California Institute of Technology, Pasadena, CA, USA

^* To whom correspondence should be addressed. E-mail: gabbiani{at}bcm.tmc.edu.

The lobula giant movement detector (LGMD) is an identified neuronin the locust visual system that responds preferentially toobjects approaching on a collision course with the animal. Forsuch looming stimuli, the LGMD firing rate gradually increases,peaks and decays towards the end of approach. The LGMD receivesboth excitatory and feed forward inhibitory inputs on distinctbranches of its dendritic tree, but little is known about thecontribution of feed forward inhibition to its response properties.We used picrotoxin, a GABA-ergic antagonist, to selectivelyblock feed forward inhibition to the LGMD. We then computeddifferences in firing rate and membrane potential between controland picrotoxin conditions to study the activation of feed forwardinhibition. For looming stimuli, a significant activation ofinhibition was observed early, as objects exceeded on average~23° in angular extent at the retina. Inhibition then increasedin parallel with excitation over the remainder of approach trials.Experiments in which the final angular size of the approachingobjects was systematically varied revealed that the relativeactivation of excitation and inhibition remains well balancedover most of the course of looming trials. Feed forward inhibitionactively contributed to the termination of the response to approachingobjects and was particularly effective for large or slowly movingobjects. Suddenly appearing and receding objects activated excitationand feed forward inhibition nearly simultaneously, in contrastto looming stimuli. Under these conditions, the activation ofexcitation and feed forward inhibition was weaker than for approachingobjects, suggesting that both are preferentially tuned to approachingobjects. These results support a phenomenological model of multiplicationwithin the LGMD and provide new constraints for biophysicalmodels of its responses to looming and receding stimuli.

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