Henrique P. von Gersdorff, Ph.D.
- Senior Scientist
- Primary Affiliation
- Vollum Institute
- Program Affiliation
- Cell & Developmental Biology
- Neuroscience Graduate Program
- Program in Molecular & Cellular Biosciences
Henrique von Gersdorff earned a Ph.D. in Physics from the University of Minnesota and a Ph.D. in Neurobiology from Stony Brook University in New York. He received his B.S. in Physics from the Federal University of Rio de Janeiro, Brazil. He was a research scientist in high-energy physics at Brookhaven National Laboratory, and had postdoctoral fellowships at Stony Brook University and the Max-Planck Institute for Biophysical Chemistry, Department of Membrane Biophysics, Göttingen. In 1998 he was appointed assistant scientist in the Vollum Institute and was promoted to scientist in 2004 and senior scientist in 2009. vonGersdorff also holds a faculty appointment in the Physiology and Pharmacology department of OHSU.
Summary of Current Research
Sensory information is conveyed by neurons specialized to faithfully transmit large amounts of information at high rates. A key event in synaptic transmission is the release of neurotransmitter via vesicle fusion at synaptic terminals. Direct studies of synaptic terminals have been hampered by technical constraints. However, using high time resolution patch-clamp and membrane capacitance measurements, von Gersdorff and his associates have studied the kinetics of vesicle fusion (exocytosis) and subsequent membrane retrieval (endocytosis) in single, live synaptic terminals from bipolar cells of the goldfish retina and from hair cells of the frog amphibian papilla. These cells have compact ribbon-type active zones that contain a large pool of releasable vesicles suitable for the transfer of high bandwidths of information. Following short depolarizations, a fast form of endocytosis can be observed, indicating that synaptic vesicle membrane is quickly re-internalized after vesicle fusion. Von Gersdorff and his colleagues are presently investigating mechanisms for short-term synaptic plasticity at reciprocal synapses in retinal slices, and multivesicular release at the hair cell synapse using capacitance measurements together with paired recordings of hair cells and their afferent fibers.
To study conventional active zone synapses, the lab has been examining the calyx of Held nerve terminal, a pivotal element in the auditory brainstem circuitry that computes sound source localization. Precise timing of action potential discharges is essential for accomplishing this task. Nevertheless, the mechanisms that modulate and preserve the timing of spikes are poorly understood. Von Gersdorff and his coworkers are studying these mechanisms and short-term forms of plasticity at this synapse. The large size of the calyx terminal allows them to patch-clamp the terminal and the postsynaptic cell simultaneously, and thus to measure Ca2+ currents, presynaptic capacitance changes, and glutamate release. This direct access to the terminal allows the lab to study the kinetics of synaptic vesicle exocytosis and endocytosis, neurotransmitter reuptake, and the modulation of neuronal output patterns by presynaptic receptors and the Na+/K+-ATPase pump. Presently, the lab is focused on developmental changes that fine-tune auditory synapses for high frequency firing, and developing techniques for imaging the fast dynamics of Ca2+ and Na+ ions in the nerve terminal and axonal afferent fibers.
Graydon CW, Cho S, Li GL, Kachar B, von Gersdorff H. (2011) Sharp Ca2+ nanodomains beneath the ribbon promote highly synchronous multivesicular release at hair cell synapses. J. Neurosci. 31:16637-16650.
Vigh J, Vickers E, von Gersdorff H. (2011) Light-evoked lateral GABAergic inhibition at single bipolar cell synaptic terminals is driven by distinct retinal microcircuits. J. Neurosci. 31:15884-15893.
Calero CI*, Vickers E*, Cid GM, Aguayo LG, von Gersdorff H, Calvo DJ. (2011) Allosteric modulation of retinal GABA receptors by ascorbic acid. J. Neurosci. 31:9672-9682. *co-first authors
Cho S, Li GL, von Gersdorff H. (2011) Recovery from short-term depression and facilitation is ultrafast and Ca2+ dependent at auditory hair cell synapses. J. Neurosci. 31:5682-5692.
Kim JH, Kushmerick C, von Gersdorff H. (2010) Presynaptic resurgent Na+ currents sculpt the action potential waveform and increase firing reliability at a CNS nerve terminal. J. Neurosci. 30:15479-15490.
Yamashita T, Eguchi K, Saitoh N, von Gersdorff H, Takahashi T. (2010) Developmental shift to a mechanism of synaptic vesicle endocytosis requiring nanodomain Ca2+. Nature Neurosci. 13:838-844.
Li GL, Keen E, Andor-Ardó D, Hudspeth AJ, von Gersdorff H. (2009) The unitary event underlying multiquantal EPSCs at a hair cell's ribbon synapse. J. Neurosci. 29:7558-7568.
Srinivasan G, Kim JH, von Gersdorff H. (2008) The pool of fast releasing vesicles is augmented by myosin light chain kinase inhibition at the calyx of Held synapse. J. Neurophysiol. 99:1810-1824.
Kim JH, Sizov I, Dobretsov M, von Gersdorff H. (2007) Presynaptic Ca2+ buffers control the strength of a fast post-tetanic hyperpolarization mediated by the α3 Na+/K+-ATPase. Nature Neurosci. 10:196-205.
Renden R, von Gersdorff H. (2007) Synaptic vesicle endocytosis at a CNS nerve terminal: faster kinetics at physiological temperatures and increased endocytotic capacity during maturation. J. Neurophysiol. 98:3349-3359.
Li GL, Vigh J, von Gersdorff H. (2007) Short-term depression at the reciprocal synapses between a retinal bipolar cell terminal and amacrine cells. J. Neurosci. 27:7377-7385.
Hull C, Studholme K, Yazulla S, von Gersdorff H. (2006) Diurnal changes in exocytosis and the number of synaptic ribbons at active zones of an ON-type bipolar cell terminal. J. Neurophysiol. 96:2025-2033.
Vigh J, Li GL, Hull C, von Gersdorff H. (2005) Long-term plasticity mediated by mGluR1 at a retinal reciprocal synapses. Neuron 46:469-482.
Dr. von Gersdorff might be available as a mentor for 2013-2014.