Rachel Dvorak scite author profile

Rachel Dvorak

4Publications

13Citation Statements Received

291Citation Statements Given

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Van Andel Institute

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Synaptic location is a determinant of the detrimental effects of α-synuclein pathology to glutamatergic transmission in the basolateral amygdala

Chen

Nagaraja

Daniels

et al. 2022

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The presynaptic protein α-synuclein (αSyn) has been suggested to be involved in the pathogenesis of Parkinson’s disease (PD). In PD, the amygdala is prone to develop insoluble αSyn aggregates, and it has been suggested that circuit dysfunction involving the amygdala contributes to the psychiatric symptoms. Yet, how αSyn aggregates affect amygdala function is unknown. In this study, we examined αSyn in glutamatergic axon terminals and the impact of its aggregation on glutamatergic transmission in the basolateral amygdala (BLA). We found that αSyn is primarily present in the vesicular glutamate transporter 1-expressing (vGluT1+) terminals in mouse BLA, which is consistent with higher levels of αSyn expression in vGluT1+ glutamatergic neurons in the cerebral cortex relative to the vGluT2+ glutamatergic neurons in the thalamus. We found that αSyn aggregation selectively decreased the cortico-BLA, but not the thalamo-BLA, transmission; and that cortico-BLA synapses displayed enhanced short-term depression upon repetitive stimulation. In addition, using confocal microscopy, we found that vGluT1+ axon terminals exhibited decreased levels of soluble αSyn, which suggests that lower levels of soluble αSyn might underlie the enhanced short-term depression of cortico-BLA synapses. In agreement with this idea, we found that cortico-BLA synaptic depression was also enhanced in αSyn knockout mice. In conclusion, both basal and dynamic cortico-BLA transmission were disrupted by abnormal aggregation of αSyn and these changes might be relevant to the perturbed cortical control of the amygdala that has been suggested to play a role in psychiatric symptoms in PD.

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Reduced Thalamic Excitation to Motor Cortical Pyramidal Tract Neurons in Parkinsonism

et al. 2022

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Reduced Thalamic Excitation to Motor Cortical Pyramidal Tract Neurons in a Mouse Model of Parkinsonism

Chen

Daniels

Dvorak

et al. 2022

Preprint

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Degeneration of midbrain dopaminergic (DA) neurons causes a reduced motor output from the primary motor cortex (M1), underlying the motor symptoms of Parkinsons disease (PD). However, cellular and circuitry mechanisms of M1 dysfunction in PD remain undefined. Using multidisciplinary approaches, we found that DA degeneration induces cell-subtype- and inputs-specific reduction of thalamic excitation to M1 pyramidal tract (PT) neurons. Physiological and anatomical analyses suggest that DA degeneration induces a loss of thalamocortical synapses to M1 PT neurons, resulting in an impaired thalamic driving of their activities. Moreover, we showed that the decreased thalamocortical connectivity are mediated by an excessive activation of NMDA receptors of M1 PT neurons. Further, the decreased thalamocortical transmission in parkinsonism can be rescued by chemogenetically suppressing basal ganglia outputs. Together, our data suggest that the reduced motor cortical outputs in parkinsonism are not only an immediate consequence of basal ganglia inhibition but also involves specific local circuitry adaptations within M1. This study reveals novel insight in the pathophysiology of parkinsonian motor deficits.

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Author response: Synaptic location is a determinant of the detrimental effects of α-synuclein pathology to glutamatergic transmission in the basolateral amygdala

Chen

Nagaraja

Daniels

et al. 2022

View full text Add to dashboard Cite

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Rachel Dvorak

Synaptic location is a determinant of the detrimental effects of α-synuclein pathology to glutamatergic transmission in the basolateral amygdala

Reduced Thalamic Excitation to Motor Cortical Pyramidal Tract Neurons in Parkinsonism

Reduced Thalamic Excitation to Motor Cortical Pyramidal Tract Neurons in a Mouse Model of Parkinsonism

Author response: Synaptic location is a determinant of the detrimental effects of α-synuclein pathology to glutamatergic transmission in the basolateral amygdala

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