Lonart, Gyorgy

Lonart, Gyorgy
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Positions

Professor, Pathology and Anatomy

Contact Info

lonartg@evms.edu

EVMS Directory Profile

overview

1. The core of my work addresses mechanisms of synaptic transmission. Pharmacological, physiological, and electron microscopic studies have made seminal contributions to this field, however the intracellular mechanisms that regulate neurotransmission remained mostly unknown until recently. To elucidate intracellular/molecular mechanisms of neurotransmission, I joined the laboratory of T. C. Südhof as a junior faculty. Specifically, I investigated the molecular mechanisms that determine the size of the readily releasable pool of synaptic vesicles, and molecular targets for protein kinases in presynaptic plasticity. We have demonstrated that SNARE protein assembly-disassembly is dynamic, and is regulated by protein kinase C for many, but not all neurotransmitters. Assembly of a tripartite core complex from three SNARE protein components, synaptobrevin/VAMP, SNAP-25, and syntaxin is required for synaptic vesicle fusion. Our findings support the idea that core complex assembly represents an important point of regulation in neurotransmitter secretion and that presynaptic plasticity can operate at the step of prefusion by regulating the size of the readily releasable pool. In another series of studies, we found that Rab3 interacting molecule 1 alpha (RIM1α) is a target for protein kinase A. As an independent investigator, I extended these studies to downstream effectors of phospho-RIM1α and to another kinase ERK, a kinase that is also important for presynaptic plasticity. These studies helped mapping the molecular mechanisms that contribute to neurotransmitter release regulation, a field of investigation that was recognized by the Nobel Committee with a prize to T.C. Südhof in 2013.

a. Lonart, G., Südhof, T.C. (2000) Assembly of SNARE core complexes prior to neurotransmitter release sets the readily releasable pool of synaptic vesicles. J Biol Chem.275:27703-7.

b. Lonart, G., Schoch, S., Kaeser, P.S., Larkin, C.J., Südhof, T.C., Linden, D.J. (2003) Phosphorylation of RIM1alpha by PKA triggers presynaptic long-term potentiation at cerebellar parallel fiber synapses. Cell. 115:49-60.

c. Simsek-Duran, F., Linden, D.J., Lonart, G. (2004) Adapter protein 14-3-3 is required for a presynaptic form of LTP in the cerebellum. Nat Neurosci. 7:1296-8.

d. Simsek-Duran, F., Lonart, G. (2008) The role of RIM1alpha in BDNF-enhanced glutamate release. Neuropharmacology. 55:27-34.

2. To complement my molecular investigations above with a system approach, and to investigate whether the molecular mechanisms I studied influence behavior, I collaborated with my colleague L.D. Sanford on projects related to mechanisms of arousal, with an emphasis on sleep. Specifically, we addressed whether fear-induced changes in neurotransmitter systems in the amygdala may be associated with the longer-term changes in arousal. Our studies established the utility of an in vitro neurochemical assay for discriminating fear-induced alterations in norepinephrine and GABA release in multiple brain regions and demonstrated that fear-induced changes in neurotransmitter release can be detected in the amygdala. To investigate a molecular link between neurotransmitter release regulation and sleep, we investigated the role RIM1α. We demonstrated that mice lacking RIM1α (Rim1KO), a protein of the synaptic active zone, had less baseline rapid eye movement (REM) sleep. Also, exposure of these mice to an open ﬁeld or to a novel object induced more robust and longer lasting locomotion suggesting altered habituation. This difference in exploratory behavior correlated with genotype speciﬁc changes in REM and deregulated release of norepinephrine in the cortex and basal amygdala of the Rim1KO mice. As norepinephrine plays an important role in regulating arousal and REM sleep, our data suggested that noradrenergic deﬁciency in Rim1 KO animals impacts exploratory behavior and sleep regulation and contributes to impairments in learning.

a. Liu, X., Lonart, G., Sanford, L.D. (2007) Transient fear-induced alterations in evoked release of norepinephrine and GABA in amygdala slices. Brain Res. 20:1142:46-53.

b. Lonart, G., Tang, X., Simsek-Duran, F., Machida, M., Sanford, LD. (2008) The role of active zone protein Rab3 interacting molecule 1 alpha in the regulation of norepinephrine release, response to novelty, and sleep. Neuroscience. 154:821-31.

selected publications

2019

BASOLATERAL AMYGDALA REGULATES EEG THETA ACTIVITY DURING RAPID EYE MOVEMENT SLEEP. SLEEP.
2018

Effects of stressor controllability on transcriptional levels of c-fos, Arc, and brain-derived neurotrophic factor in mouse amygdala and medial prefrontal cortex. NEUROREPORT. 29:112-117.
Full Text via DOI: 10.1097/WNR.0000000000000919 PMID: 29135807
2017

AMYGDALAR REGULATION OF PONTINE REM REGULATORY REGIONS: EFFECTS OF SLEEP. SLEEP. A51-A51.
2017

Effects of Optogenetic inhibition of BLA on Sleep Brief Optogenetic Inhibition of the Basolateral Amygdala in Mice Alters Effects of Stressful Experiences on Rapid Eye Movement Sleep. SLEEP. 40.
Full Text via DOI: 10.1093/sleep/zsx020 PMID: 28199723
2017

OPTOGENETIC STIMULATION AND INHIBITION OF THE CENTRAL NUCLEUS OF THE AMYGDALA ALTERS FIRING IN LOCUS COERULEUS NEURONS. SLEEP. A51-A51.
2017

Changes in the Hippocampal Proteome Associated with Spatial Memory Impairment after Exposure to Low (20 cGy) Doses of 1 GeV/ n Fe-56 Radiation. RADIATION RESEARCH. 187:287-297.
Full Text via DOI: 10.1667/RR14067.1 PMID: 28156212
2017

Erratum.. SLEEP. 40.
Full Text via DOI: 10.1093/sleep/zsx081 PMID: 28838132
2016

In Reply.. ANESTHESIOLOGY. 822-3.
Full Text via DOI: 10.1097/aln.0000000000001258 PMID: 27649440
2016

Propofol-induced Inhibition of Catecholamine Release Is Reversed by Maintaining Calcium Influx.. ANESTHESIOLOGY. 124:878-84.
Full Text via DOI: 10.1097/aln.0000000000001015 PMID: 26808630
2016

Relevance of Clinical Relevance.. ANESTHESIOLOGY. 821-2.
Full Text via DOI: 10.1097/aln.0000000000001257 PMID: 27649439
2014

Exposure to Mission Relevant Doses of 1 GeV/Nucleon Fe-56 Particles Leads to Impairment of Attentional Set-Shifting Performance in Socially Mature Rats. RADIATION RESEARCH. 182:292-298.
Full Text via DOI: 10.1667/RR3766.1 PMID: 25029107
2012

Executive Function in Rats is Impaired by Low (20 cGy) Doses of 1 GeV/u Fe-56 Particles. RADIATION RESEARCH. 178:289-294.
Full Text via DOI: 10.1667/RR2862.1 PMID: 22880624
2012

Low (20 cGy) Doses of 1 GeV/u Fe-56-Particle Radiation Lead to a Persistent Reduction in the Spatial Learning Ability of Rats. RADIATION RESEARCH. 177:146-151.
Full Text via DOI: 10.1667/RR2637.1 PMID: 22077338
2011

EFFECTS OF STRESSOR CONTROLLABILITY ON NEURAL PLASTICITY ASSOCIATED MRNA LEVELS IN MOUSE AMYGDALA AND MEDIAL PREFRONTAL CORTEX (MPFC). SLEEP. A16-A16.
2010

Low (60 cGy) Doses of Fe-56 HZE-Particle Radiation Lead to a Persistent Reduction in the Glutamatergic Readily Releasable Pool in Rat Hippocampal Synaptosomes. RADIATION RESEARCH. 174:618-623.
Full Text via DOI: 10.1667/RR1988.1 PMID: 20726706
2010

THE IDENTIFICATION OF SERUM BIOMARKERS OF HIGH-LET RADIATION EXPOSURE AND BIOLOGICAL SEQUELAE. HEALTH PHYSICS. 98:196-203.
Full Text via DOI: 10.1097/HP.0b013e3181acff7c PMID: 20065683
2008

THE ROLE OF ACTIVE ZONE PROTEIN Rab3 INTERACTING MOLECULE 1 ALPHA IN THE REGULATION OF NOREPINEPHRINE RELEASE, RESPONSE TO NOVELTY, AND SLEEP (vol 154, pg 821, 2008). NEUROSCIENCE. 1136-1137.
Full Text via DOI: 10.1016/j.neuroscience.2008.07.076
2008

The role of RIM1 alpha in BDNF-enhanced glutamate release. NEUROPHARMACOLOGY. 55:27-34.
Full Text via DOI: 10.1016/j.neuropharm.2008.04.009 PMID: 18499195
2008

The role of active zone protein Rab3 interacting molecule 1 alpha in the regulation of norepinephrine release, response to novelty, and sleep. NEUROSCIENCE. 154:821-831.
Full Text via DOI: 10.1016/j.neuroscience.2008.03.047 PMID: 18495360
2008

Synapsin II and calcium regulate vesicle docking and the cross-talk between vesicle pools at the mouse motor terminals.. The Journal of physiology. 586:4649-73.
Full Text via DOI: 10.1113/jphysiol.2008.154666 PMID: 18669537
2007

Transient fear-induced alterations in evoked release of norepinephrine and GABA in amygdala slices. BRAIN RESEARCH. 1142:46-53.
Full Text via DOI: 10.1016/j.brainres.2007.01.038 PMID: 17303088
2006

Deletion of synapsins I and II genes alters the size of vesicular pools and rabphilin phosphorylation. BRAIN RESEARCH. 1107:42-51.
Full Text via DOI: 10.1016/j.brainres.2006.05.092 PMID: 16844103
2005

GABA release associated with fear-induced alterations in arousal. SLEEP. A7-A7.
2004

Adapter protein 14-3-3 is required for a presynaptic form of LTP in the cerebellum.. NATURE NEUROSCIENCE. 7:1296-8.
Full Text via DOI: 10.1038/nn1348 PMID: 15543142
2003

Phosphorylation of RIM1alpha by PKA triggers presynaptic long-term potentiation at cerebellar parallel fiber synapses.. Cell. 115:49-60.
Full Text via DOI: 10.1016/s0092-8674(03)00727-x PMID: 14532002

research overview

My focus is synaptic transmission and mapping synaptic networks involved in fear, learning and sleep regulation. Pharmacological, physiological, and microscopic studies have made seminal contributions to our field, however the intracellular mechanisms that regulate neurotransmission remained mostly unknown until recently. Prior to becoming an EVMS faculty, I worked in the laboratory of T. C. Südhof, Nobel Prize in Medicine, 2013, to investigate the molecular mechanisms of neurotransmitter release. We have demonstrated that SNARE protein assembly-disassembly is dynamic, and that it is regulated by protein kinase C for many neurotransmitter types.