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Cells
Volume 14
Issue 3
10.3390/cells14030172
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This is an early access version, the complete PDF, HTML, and XML versions will be available soon.
Article

Bilirubin Triggers Calcium Elevations and Dysregulates Giant Depolarizing Potentials During Rat Hippocampus Maturation

by
Giada Cellot
1,*,†,
Giuseppe Di Mauro
1,†,
Chiara Ricci
1,
Claudio Tiribelli
2,
Cristina Bellarosa
2,* and
Laura Ballerini
1,*
1
International School for Advanced Studies (SISSA), Neuroscience Area, Via Bonomea, 265, 34136 Trieste, Italy
2
Fondazione Italiana Fegato ONLUS—Italian Liver Foundation, Bldg Q-AREA Science Park Basovizza, SS14 Km 163.5, 34149 Trieste, Italy
*
Authors to whom correspondence should be addressed.
These authors contributed equally to this work.
Cells 2025, 14(3), 172; https://doi.org/10.3390/cells14030172
Submission received: 5 November 2024 / Revised: 20 December 2024 / Accepted: 22 January 2025 / Published: 23 January 2025
(This article belongs to the Section Cellular Pathology)
Versions Notes

Abstract

Abstract: Neonatal hyperbilirubinemia may result in long-lasting motor, auditory and learning impairments. The mechanisms responsible for the localization of unconjugated bilirubin (UCB) to specific brain areas as well as those involved in potentially permanent central nervous system (CNS) dysfunctions are far from being clear. One area of investigation includes exploring how hyperbilirubinemia determines neuronal alterations predisposing to neurodevelopmental disorders. We focused on the hippocampus and pyramidal cell dysregulation of calcium homeostasis and synaptic activity, with a particular focus on early forms of correlated network activity, i.e., giant depolarizing potentials (GDPs), crucially involved in shaping mature synaptic networks. We performed live calcium imaging and patch clamp recordings from acute hippocampal slices isolated from wild-type rats exposed to exogenous high bilirubin concentration. We then explored the impact of endogenous bilirubin accumulation in hippocampal slices isolated from a genetic model of hyperbilirubinemia, i.e., Gunn rats. Our data show in both models an age-dependent dysregulation of calcium dynamics accompanied by severe alterations in GDPs, which were strongly reduced in hippocampal slices of hyperbilirubinemic rats, where the expression of GABAergic neurotransmission markers was also altered. We propose that hyperbilirubinemia damages neurons and affects the refinement of GABAergic synaptic circuitry during a critical period of hippocampal development.
Keywords: neuroscience; kernicterus; bilirubin neurotoxicity; calcium imaging; synaptic activity; patch clamp; Gunn rats neuroscience; kernicterus; bilirubin neurotoxicity; calcium imaging; synaptic activity; patch clamp; Gunn rats

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MDPI and ACS Style

Cellot, G.; Di Mauro, G.; Ricci, C.; Tiribelli, C.; Bellarosa, C.; Ballerini, L. Bilirubin Triggers Calcium Elevations and Dysregulates Giant Depolarizing Potentials During Rat Hippocampus Maturation. Cells 2025, 14, 172. https://doi.org/10.3390/cells14030172

AMA Style

Cellot G, Di Mauro G, Ricci C, Tiribelli C, Bellarosa C, Ballerini L. Bilirubin Triggers Calcium Elevations and Dysregulates Giant Depolarizing Potentials During Rat Hippocampus Maturation. Cells. 2025; 14(3):172. https://doi.org/10.3390/cells14030172

Chicago/Turabian Style

Cellot, Giada, Giuseppe Di Mauro, Chiara Ricci, Claudio Tiribelli, Cristina Bellarosa, and Laura Ballerini. 2025. "Bilirubin Triggers Calcium Elevations and Dysregulates Giant Depolarizing Potentials During Rat Hippocampus Maturation" Cells 14, no. 3: 172. https://doi.org/10.3390/cells14030172

APA Style

Cellot, G., Di Mauro, G., Ricci, C., Tiribelli, C., Bellarosa, C., & Ballerini, L. (2025). Bilirubin Triggers Calcium Elevations and Dysregulates Giant Depolarizing Potentials During Rat Hippocampus Maturation. Cells, 14(3), 172. https://doi.org/10.3390/cells14030172

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