Belinda Barbagallo - Academia.edu (original) (raw)
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Papers by Belinda Barbagallo
Food and Chemical Toxicology
Advances in Biology Laboratory Education
Development (Cambridge, England), May 15, 2017
Establishing and maintaining the appropriate number of GABA synapses is key for balancing excitat... more Establishing and maintaining the appropriate number of GABA synapses is key for balancing excitation and inhibition in the nervous system, though we have only a limited understanding of the mechanisms controlling GABA circuit connectivity. Here, we show that disrupting cholinergic innervation of GABAergic neurons in the C. elegans motor circuit alters GABAergic neuron synaptic connectivity. These changes are accompanied by reduced frequency and increased amplitude of GABAergic synaptic events. Acute genetic disruption in early development, during the integration of post-embryonic-born GABAergic neurons into the circuit, produces irreversible effects on GABAergic synaptic connectivity that mimic those produced by chronic manipulations. In contrast, acute genetic disruption of cholinergic signaling in the adult circuit does not reproduce these effects. Our findings reveal that GABAergic signaling is regulated by cholinergic neuronal activity, probably through distinct mechanisms in th...
The signature of the Chair of the Committee signifies that the written dissertation meets the req... more The signature of the Chair of the Committee signifies that the written dissertation meets the requirements of the dissertation committee. _________________________________________ Claire Bénard, Ph.D., Chair of Committeee The signature of the Dean of the Graduate School of Biomedical Sciences signifies that the student has met all graduation requirements of the school.
Current opinion in neurobiology, Jan 20, 2015
Animals use thermosensory systems to achieve optimal temperatures for growth and reproduction and... more Animals use thermosensory systems to achieve optimal temperatures for growth and reproduction and to avoid damaging extremes. Thermoregulation is particularly challenging for small animals like the fruit fly Drosophila melanogaster, whose body temperature rapidly changes in response to environmental temperature fluctuation. Recent work has uncovered some of the key molecules mediating fly thermosensation, including the Transient Receptor Potential (TRP) channels TRPA1 and Painless, and the Gustatory Receptor Gr28b, an unanticipated thermosensory regulator normally associated with a different sensory modality. There is also evidence the Drosophila phototransduction cascade may have some role in thermosensory responses. Together, the fly's diverse thermosensory molecules act in an array of functionally distinct thermosensory neurons to drive a suite of complex, and often exceptionally thermosensitive, behaviors.
Worm, 2013
Nicotinic or ionotropic acetylcholine receptors (iAChRs) mediate excitatory signaling throughout ... more Nicotinic or ionotropic acetylcholine receptors (iAChRs) mediate excitatory signaling throughout the nervous system, and the heterogeneity of these receptors contributes to their multifaceted roles. Our recent work has characterized a single iAChR subunit, ACR-12, which contributes to two distinct iAChR subtypes within the C. elegans motor circuit. These two receptor subtypes regulate the coordinated activity of excitatory (cholinergic) and inhibitory (GABAergic) motor neurons. We have shown that the iAChR subunit ACR-12 is differentially expressed in both cholinergic and GABAergic motor neurons within the motor circuit. In cholinergic motor neurons, ACR-12 is incorporated into the previously characterized ACR-2 heteromeric receptor, which shows non-synaptic localization patterns and plays a modulatory role in controlling circuit function.(1) In contrast, a second population of ACR-12-containing receptors in GABAergic motor neurons, ACR-12GABA, shows synaptic expression and regulate...
Journal of Neuroscience, 2013
Heterogeneity in the composition of neurotransmitter receptors is thought to provide functional d... more Heterogeneity in the composition of neurotransmitter receptors is thought to provide functional diversity that may be important in patterning neural activity and shaping behavior (Dani and Bertrand, 2007; Sassoè-Pognetto, 2011). However, this idea has remained difficult to evaluate directly because of the complexity of neuronal connectivity patterns and uncertainty about the molecular composition of specific receptor types in vivo. Here we dissect how molecular diversity across receptor types contributes to the coordinated activity of excitatory and inhibitory motor neurons in the nematode Caenorhabditis elegans. We show that excitatory and inhibitory motor neurons express distinct populations of ionotropic acetylcholine receptors (iAChRs) requiring the ACR-12 subunit. The activity level of excitatory motor neurons is influenced through activation of nonsynaptic iAChRs (Jospin et al., 2009; Barbagallo et al., 2010). In contrast, synaptic coupling of excitatory and inhibitory motor neurons is achieved through a second population of iAChRs specifically localized at postsynaptic sites on inhibitory motor neurons. Loss of ACR-12 iAChRs from inhibitory motor neurons leads to reduced synaptic drive, decreased inhibitory neuromuscular signaling, and variability in the sinusoidal motor pattern. Our results provide new insights into mechanisms that establish appropriately balanced excitation and inhibition in the generation of a rhythmic motor behavior and reveal functionally diverse roles for iAChR-mediated signaling in this process.
Cancer, 2009
Melanoma characteristically grows within the epidermis along the dermal-epidermal junction, somet... more Melanoma characteristically grows within the epidermis along the dermal-epidermal junction, sometimes extending outward up to several centimeters beyond the foci of invasive tumors. Although follicular involvement by malignant melanoma is widely recognized, to the authors' knowledge no previously published data address this phenomenon. To examine the growth characteristics of in situ melanomas in relation to the hair follicle microanatomy, the authors analyzed 100 cases of primary cutaneous melanomas (61 in situ and 39 invasive melanomas with significant in situ components) obtained from pathology clinical archives. Eighty-two (82%) cases of melanoma in situ demonstrated tumor cells within >or=1 hair follicles. Of those, 57 (69.5%) cases demonstrated the tumor cells only within the infundibulum. Extension of the tumor cells down to the isthmus was observed in 24 cases (29.3%). In only 1 exceptional case (1%) were tumor cells detected beneath the level of the hair follicle bulge. The authors postulate that a physiologic barrier restricts the intraepithelial spread of melanoma tumor cells at or beyond the level of the stem cell niche in the hair follicle bulge. Although the nature of this barrier remains to be elucidated, the distinct biologic characteristics of the hair follicle bulge may provide clues to understanding this phenomenon.
The Journal of …, 2010
Inappropriate or excessive activation of ionotropic receptors can have dramatic consequences for ... more Inappropriate or excessive activation of ionotropic receptors can have dramatic consequences for neuronal function and, in many instances, leads to cell death. In Caenorhabditis elegans, nicotinic acetylcholine receptor (nAChR) subunits are highly expressed in a neural circuit that controls movement. Here, we show that heteromeric nAChRs containing the acr-2 subunit are diffusely localized in the processes of excitatory motor neurons and act to modulate motor neuron activity. Excessive signaling through these receptors leads to cell-autonomous degeneration of cholinergic motor neurons and paralysis. C. elegans double mutants lacking calreticulin and calnexintwo genes previously implicated in the cellular events leading to necrotic-like cell death (Xu et al. 2001)-are resistant to nAChRmediated toxicity and possess normal numbers of motor neuron cell bodies. Nonetheless, excess nAChR activation leads to progressive destabilization of the motor neuron processes and, ultimately, paralysis in these animals. Our results provide new evidence that chronic activation of ionotropic receptors can have devastating degenerative effects in neurons and reveal that ion channel-mediated toxicity may have distinct consequences in neuronal cell bodies and processes.
PLoS genetics, 2014
An organism's ability to thrive in changing environmental conditions requires the capacity fo... more An organism's ability to thrive in changing environmental conditions requires the capacity for making flexible behavioral responses. Here we show that, in the nematode Caenorhabditis elegans, foraging responses to changes in food availability require nlp-12, a homolog of the mammalian neuropeptide cholecystokinin (CCK). nlp-12 expression is limited to a single interneuron (DVA) that is postsynaptic to dopaminergic neurons involved in food-sensing, and presynaptic to locomotory control neurons. NLP-12 release from DVA is regulated through the D1-like dopamine receptor DOP-1, and both nlp-12 and dop-1 are required for normal local food searching responses. nlp-12/CCK overexpression recapitulates characteristics of local food searching, and DVA ablation or mutations disrupting muscle acetylcholine receptor function attenuate these effects. Conversely, nlp-12 deletion reverses behavioral and functional changes associated with genetically enhanced muscle acetylcholine receptor activi...
Food and Chemical Toxicology
Advances in Biology Laboratory Education
Development (Cambridge, England), May 15, 2017
Establishing and maintaining the appropriate number of GABA synapses is key for balancing excitat... more Establishing and maintaining the appropriate number of GABA synapses is key for balancing excitation and inhibition in the nervous system, though we have only a limited understanding of the mechanisms controlling GABA circuit connectivity. Here, we show that disrupting cholinergic innervation of GABAergic neurons in the C. elegans motor circuit alters GABAergic neuron synaptic connectivity. These changes are accompanied by reduced frequency and increased amplitude of GABAergic synaptic events. Acute genetic disruption in early development, during the integration of post-embryonic-born GABAergic neurons into the circuit, produces irreversible effects on GABAergic synaptic connectivity that mimic those produced by chronic manipulations. In contrast, acute genetic disruption of cholinergic signaling in the adult circuit does not reproduce these effects. Our findings reveal that GABAergic signaling is regulated by cholinergic neuronal activity, probably through distinct mechanisms in th...
The signature of the Chair of the Committee signifies that the written dissertation meets the req... more The signature of the Chair of the Committee signifies that the written dissertation meets the requirements of the dissertation committee. _________________________________________ Claire Bénard, Ph.D., Chair of Committeee The signature of the Dean of the Graduate School of Biomedical Sciences signifies that the student has met all graduation requirements of the school.
Current opinion in neurobiology, Jan 20, 2015
Animals use thermosensory systems to achieve optimal temperatures for growth and reproduction and... more Animals use thermosensory systems to achieve optimal temperatures for growth and reproduction and to avoid damaging extremes. Thermoregulation is particularly challenging for small animals like the fruit fly Drosophila melanogaster, whose body temperature rapidly changes in response to environmental temperature fluctuation. Recent work has uncovered some of the key molecules mediating fly thermosensation, including the Transient Receptor Potential (TRP) channels TRPA1 and Painless, and the Gustatory Receptor Gr28b, an unanticipated thermosensory regulator normally associated with a different sensory modality. There is also evidence the Drosophila phototransduction cascade may have some role in thermosensory responses. Together, the fly's diverse thermosensory molecules act in an array of functionally distinct thermosensory neurons to drive a suite of complex, and often exceptionally thermosensitive, behaviors.
Worm, 2013
Nicotinic or ionotropic acetylcholine receptors (iAChRs) mediate excitatory signaling throughout ... more Nicotinic or ionotropic acetylcholine receptors (iAChRs) mediate excitatory signaling throughout the nervous system, and the heterogeneity of these receptors contributes to their multifaceted roles. Our recent work has characterized a single iAChR subunit, ACR-12, which contributes to two distinct iAChR subtypes within the C. elegans motor circuit. These two receptor subtypes regulate the coordinated activity of excitatory (cholinergic) and inhibitory (GABAergic) motor neurons. We have shown that the iAChR subunit ACR-12 is differentially expressed in both cholinergic and GABAergic motor neurons within the motor circuit. In cholinergic motor neurons, ACR-12 is incorporated into the previously characterized ACR-2 heteromeric receptor, which shows non-synaptic localization patterns and plays a modulatory role in controlling circuit function.(1) In contrast, a second population of ACR-12-containing receptors in GABAergic motor neurons, ACR-12GABA, shows synaptic expression and regulate...
Journal of Neuroscience, 2013
Heterogeneity in the composition of neurotransmitter receptors is thought to provide functional d... more Heterogeneity in the composition of neurotransmitter receptors is thought to provide functional diversity that may be important in patterning neural activity and shaping behavior (Dani and Bertrand, 2007; Sassoè-Pognetto, 2011). However, this idea has remained difficult to evaluate directly because of the complexity of neuronal connectivity patterns and uncertainty about the molecular composition of specific receptor types in vivo. Here we dissect how molecular diversity across receptor types contributes to the coordinated activity of excitatory and inhibitory motor neurons in the nematode Caenorhabditis elegans. We show that excitatory and inhibitory motor neurons express distinct populations of ionotropic acetylcholine receptors (iAChRs) requiring the ACR-12 subunit. The activity level of excitatory motor neurons is influenced through activation of nonsynaptic iAChRs (Jospin et al., 2009; Barbagallo et al., 2010). In contrast, synaptic coupling of excitatory and inhibitory motor neurons is achieved through a second population of iAChRs specifically localized at postsynaptic sites on inhibitory motor neurons. Loss of ACR-12 iAChRs from inhibitory motor neurons leads to reduced synaptic drive, decreased inhibitory neuromuscular signaling, and variability in the sinusoidal motor pattern. Our results provide new insights into mechanisms that establish appropriately balanced excitation and inhibition in the generation of a rhythmic motor behavior and reveal functionally diverse roles for iAChR-mediated signaling in this process.
Cancer, 2009
Melanoma characteristically grows within the epidermis along the dermal-epidermal junction, somet... more Melanoma characteristically grows within the epidermis along the dermal-epidermal junction, sometimes extending outward up to several centimeters beyond the foci of invasive tumors. Although follicular involvement by malignant melanoma is widely recognized, to the authors' knowledge no previously published data address this phenomenon. To examine the growth characteristics of in situ melanomas in relation to the hair follicle microanatomy, the authors analyzed 100 cases of primary cutaneous melanomas (61 in situ and 39 invasive melanomas with significant in situ components) obtained from pathology clinical archives. Eighty-two (82%) cases of melanoma in situ demonstrated tumor cells within >or=1 hair follicles. Of those, 57 (69.5%) cases demonstrated the tumor cells only within the infundibulum. Extension of the tumor cells down to the isthmus was observed in 24 cases (29.3%). In only 1 exceptional case (1%) were tumor cells detected beneath the level of the hair follicle bulge. The authors postulate that a physiologic barrier restricts the intraepithelial spread of melanoma tumor cells at or beyond the level of the stem cell niche in the hair follicle bulge. Although the nature of this barrier remains to be elucidated, the distinct biologic characteristics of the hair follicle bulge may provide clues to understanding this phenomenon.
The Journal of …, 2010
Inappropriate or excessive activation of ionotropic receptors can have dramatic consequences for ... more Inappropriate or excessive activation of ionotropic receptors can have dramatic consequences for neuronal function and, in many instances, leads to cell death. In Caenorhabditis elegans, nicotinic acetylcholine receptor (nAChR) subunits are highly expressed in a neural circuit that controls movement. Here, we show that heteromeric nAChRs containing the acr-2 subunit are diffusely localized in the processes of excitatory motor neurons and act to modulate motor neuron activity. Excessive signaling through these receptors leads to cell-autonomous degeneration of cholinergic motor neurons and paralysis. C. elegans double mutants lacking calreticulin and calnexintwo genes previously implicated in the cellular events leading to necrotic-like cell death (Xu et al. 2001)-are resistant to nAChRmediated toxicity and possess normal numbers of motor neuron cell bodies. Nonetheless, excess nAChR activation leads to progressive destabilization of the motor neuron processes and, ultimately, paralysis in these animals. Our results provide new evidence that chronic activation of ionotropic receptors can have devastating degenerative effects in neurons and reveal that ion channel-mediated toxicity may have distinct consequences in neuronal cell bodies and processes.
PLoS genetics, 2014
An organism's ability to thrive in changing environmental conditions requires the capacity fo... more An organism's ability to thrive in changing environmental conditions requires the capacity for making flexible behavioral responses. Here we show that, in the nematode Caenorhabditis elegans, foraging responses to changes in food availability require nlp-12, a homolog of the mammalian neuropeptide cholecystokinin (CCK). nlp-12 expression is limited to a single interneuron (DVA) that is postsynaptic to dopaminergic neurons involved in food-sensing, and presynaptic to locomotory control neurons. NLP-12 release from DVA is regulated through the D1-like dopamine receptor DOP-1, and both nlp-12 and dop-1 are required for normal local food searching responses. nlp-12/CCK overexpression recapitulates characteristics of local food searching, and DVA ablation or mutations disrupting muscle acetylcholine receptor function attenuate these effects. Conversely, nlp-12 deletion reverses behavioral and functional changes associated with genetically enhanced muscle acetylcholine receptor activi...