Sarah Heath scite author profile

Spectral information is commonly processed in the brain through generation of antagonistic responses to different wavelengths. In many species, these color opponent signals arise as early as photoreceptor terminals. Here, we measure the spectral tuning of photoreceptors in Drosophila. In addition to a previously described pathway comparing wavelengths at each point in space, we find a horizontal-cell-mediated pathway similar to that found in mammals.This pathway enables additional spectral comparisons through lateral inhibition, expanding the range of chromatic encoding in the fly. Together, these two pathways enable optimal decorrelation of photoreceptor signals. A biologically constrained model accounts for our findings and predicts a spatio-chromatic receptive field for fly photoreceptor outputs, with a color opponent center and broadband surround. This dual mechanism combines motifs of both an insect-specific visual circuit and an evolutionarily convergent circuit architecture, endowing flies with the unique ability to extract chromatic information at distinct spatial resolutions.

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Opioids modulate an emergent rhythmogenic process to depress breathing

Sun

Pérez

et al. 2019

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How mammalian neural circuits generate rhythmic activity in motor behaviors, such as breathing, walking, and chewing, remains elusive. For breathing, rhythm generation is localized to a brainstem nucleus, the preBötzinger Complex (preBötC). Rhythmic preBötC population activity consists of strong inspiratory bursts, which drive motoneuronal activity, and weaker burstlets, which we hypothesize reflect an emergent rhythmogenic process. If burstlets underlie inspiratory rhythmogenesis, respiratory depressants, such as opioids, should reduce burstlet frequency. Indeed, in medullary slices from neonatal mice, the μ-opioid receptor (μOR) agonist DAMGO slowed burstlet generation. Genetic deletion of μORs in a glutamatergic preBötC subpopulation abolished opioid-mediated depression, and the neuropeptide Substance P, but not blockade of inhibitory synaptic transmission, reduced opioidergic effects. We conclude that inspiratory rhythmogenesis is an emergent process, modulated by opioids, that does not rely on strong bursts of activity associated with motor output. These findings also point to strategies for ameliorating opioid-induced depression of breathing.

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Parkin Deficiency Reduces Hippocampal Glutamatergic Neurotransmission by Impairing AMPA Receptor Endocytosis

Cortese

Zhu

Williams³

et al. 2016

J. Neurosci.

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Mutations in the gene encoding Parkin, an E3 ubiquitin ligase, lead to juvenile-onset Parkinson's disease by inducing the selective death of midbrain dopaminergic neurons. Accumulating evidence indicates that Parkin also has an important role in excitatory glutamatergic neurotransmission, although its precise mechanism of action remains unclear. Here, we investigate Parkin's role at glutamatergic synapses of rat hippocampal neurons. We find that Parkin-deficient neurons exhibit significantly reduced AMPA receptor (AMPAR)-mediated currents and cell-surface expression, and that these phenotypes result from decreased postsynaptic expression of the adaptor protein Homer1, which is necessary for coupling AMPAR endocytic zones with the postsynaptic density. Accordingly, Parkin loss of function leads to the reduced density of postsynaptic endocytic zones and to impaired AMPAR internalization. These findings demonstrate a novel and essential role for Parkin in glutamatergic neurotransmission, as a stabilizer of postsynaptic Homer1 and the Homer1-linked endocytic machinery necessary for maintaining normal cell-surface AMPAR levels.

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Inspiratory rhythmogenic activity is burst-independent and opioid-sensitive

Sun

Pérez

Halemani

et al. 2019

Preprint

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SummaryHow mammalian neural circuits generate rhythmic activity in motor behaviors, such as breathing, walking, and chewing, remains elusive. For breathing, rhythm generation can be localized to a brainstem nucleus called the preBötzinger Complex (preBötC). Rhythmic preBötC population activity consists of small amplitude burstlets, which we hypothesize are rhythmogenic, and larger inspiratory bursts, which drive motoneuronal activity. If burstlets are rhythmogenic, opioids, analgesics that can cause profound respiratory depression, should similarly reduce burstlet frequency. In conditions where burstlets were separated from bursts in medullary slices from neonatal mice, the μ-opioid receptor (μOR) agonist DAMGO decreased burstlet frequency. DAMGO-mediated depression was abolished by genetic deletion of μORs in a glutamatergic preBötC subpopulation and was reduced by Substance P, but not blockade of inhibitory synaptic transmission. Our findings suggest that rhythmogenesis need not rely on strong bursts of activity associated with motor output and point to strategies for ameliorating opioid-induced depression of breathing.

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Sarah Heath

Circuit Mechanisms Underlying Chromatic Encoding in Drosophila Photoreceptors

Circuit mechanisms underlying chromatic encoding in Drosophila photoreceptors

Opioids modulate an emergent rhythmogenic process to depress breathing

Parkin Deficiency Reduces Hippocampal Glutamatergic Neurotransmission by Impairing AMPA Receptor Endocytosis

Inspiratory rhythmogenic activity is burst-independent and opioid-sensitive

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