Your search keyword '"Lillis, Kyle P."' showing total 4 results

1. Synthesis and Characterization of a Novel Concentration-Independent Fluorescent Chloride Indicator, ABP-Dextran, Optimized for Extracellular Chloride Measurement.

Author

Normoyle, Kieran P., Lillis, Kyle P., and Staley, Kevin J.

Subjects

*FLUORESCENT probes, *GABA

Abstract

GABA, the primary inhibitory neurotransmitter, stimulates GABAA receptors (GABAARs) to increase the chloride conductance of the cytosolic membrane. The driving forces for membrane chloride currents are determined by the local differences between intracellular and extracellular chloride concentrations (Cli and Clo, respectively). While several strategies exist for the measurement of Cli, the field lacks tools for non-invasive measurement of Clo. We present the design and development of a fluorescent lifetime imaging (FLIM)-compatible small molecule, N(4-aminobutyl)phenanthridiunium (ABP) with the brightness, spectral features, sensitivity to chloride, and selectivity versus other anions to serve as a useful probe of Clo. ABP can be conjugated to dextran to ensure extracellular compartmentalization, and a second chloride-insensitive counter-label can be added for ratiometric imaging. We validate the utility of this novel sensor series in two sensor concentration-independent modes: FLIM or ratiometric intensity-based imaging. [ABSTRACT FROM AUTHOR]

Published

2024

2. Unique Actions of GABA Arising from Cytoplasmic Chloride Microdomains.

Author

Rahmati, Negah, Normoyle, Kieran P., Glykys, Joseph, Dzhala, Volodymyr I., Lillis, Kyle P., Kahle, Kristopher T., Raiyyani, Rehan, Jacob, Theju, and Staley, Kevin J.

Subjects

GABA, PYRAMIDAL neurons, FLUORESCENT proteins, CHLORIDES, ADDITION polymerization

Abstract

Developmental, cellular, and subcellular variations in the direction of neuronal Cl- currents elicited by GABAA receptor activation have been frequently reported. We found a corresponding variance in the GABAA receptor reversal potential (EGABA) for synapses originating from individual interneurons onto a single pyramidal cell. These findings suggest a similar heterogeneity in the cytoplasmic intracellular concentration of chloride ([Cl-]i) in individual dendrites. We determined [Cl-]i in the murine hippocampus and cerebral cortex of both sexes by (1) two-photon imaging of the Cl--sensitive, ratiometric fluorescent protein SuperClomeleon; (2) Fluorescence Lifetime IMaging (FLIM) of the Cl--sensitive fluorophore MEQ (6-methoxy-N-ethylquinolinium); and (3) electrophysiological measurements of EGABA by pressure application of GABA and RuBi-GABA uncaging. Fluorometric and electrophysiological estimates of local [Cl-]i were highly correlated. [Cl-]i microdomains persisted after pharmacological inhibition of cation-chloride cotransporters, but were progressively modified after inhibiting the polymerization of the anionic biopolymer actin. These methods collectively demonstrated stable [Cl-]i microdomains in individual neurons in vitro and in vivo and the role of immobile anions in its stability. Our results highlight the existence of functionally significant neuronal Cl- microdomains that modify the impact of GABAergic inputs. [ABSTRACT FROM AUTHOR]

Published

2021

3. A Tisket a Tasket: Chandelier ≠ Basket (Cell Bouton Density in Sclerotic DG).

Author

Lillis, Kyle P

Subjects

*ENTORHINAL cortex, *TEMPORAL lobe epilepsy, *GRANULE cells, *DENTATE gyrus, *SPECIFIC gravity, *CHANDELIERS

Abstract

GABA bouton subpopulations in the human dentate gyrus are differentially altered in mesial temporal lobe epilepsy Alhourani A, Fish KN, Wozny TA, Sudhakar V, Hamilton RL, Richardson RM. J Neuro. 2020;123(4):392-406. doi:10.1152/jn.00523.2018 Medically intractable temporal lobe epilepsy is a devastating disease, for which surgical removal of the seizure-onset zone is the only known cure. Multiple studies have found evidence of abnormal dentate gyrus network circuitry in human mesial temporal lobe epilepsy (MTLE). Principal neurons within the dentate gyrus gate entorhinal input into the hippocampus provide a critical step in information processing. Crucial to that role are GABA-expressing neurons, particularly parvalbumin (PV)-expressing basket cells (PVBCs) and chandelier cells (PVChCs), which provide strong, temporally coordinated inhibitory signals. Alterations in PVBC and PVChC boutons have been described in epilepsy, but the value of these studies has been limited due to methodological hurdles associated with studying human tissue. We developed a multilabel immunofluorescence confocal microscopy and a custom segmentation algorithm to quantitatively assess PVBC and PVChC bouton densities and to infer relative synaptic protein content in the human dentate gyrus. Using en bloc specimens from MTLE subjects with and without hippocampal sclerosis, paired with nonepileptic controls, we demonstrate the utility of this approach for detecting cell-type specific synaptic alterations. Specifically, we found increased density of PVBC boutons, while PVChC boutons decreased significantly in the dentate granule cell layer of subjects with hippocampal sclerosis compared with matched controls. In contrast, bouton densities for either PV-positive cell type did not differ between epileptic subjects without sclerosis and matched controls. These results may explain conflicting findings from previous studies that have reported both preserved and decreased PV bouton densities and establish a new standard for quantitative assessment of interneuron boutons in epilepsy. [ABSTRACT FROM AUTHOR]

Published

2020

4. Pyramidal cells accumulate chloride at seizure onset

Author

Lillis, Kyle P., Kramer, Mark A., Mertz, Jerome, Staley, Kevin J., and White, John A.

Subjects

*CHLORIDES in the body, *SPASMS, *AGE of onset, *NEURAL circuitry, *KUPFFER cells, *PSYCHOLOGICAL feedback, *GABA

Abstract

Abstract: Seizures are thought to originate from a failure of inhibition to quell hyperactive neural circuits, but the nature of this failure remains unknown. Here we combine high-speed two-photon imaging with electrophysiological recordings to directly evaluate the interaction between populations of interneurons and principal cells during the onset of seizure-like activity in mouse hippocampal slices. Both calcium imaging and dual patch clamp recordings reveal that in vitro seizure-like events (SLEs) are preceded by pre-ictal bursts of activity in which interneurons predominate. Corresponding changes in intracellular chloride concentration were observed in pyramidal cells using the chloride indicator Clomeleon. These changes were measurable at SLE onset and became very large during the SLE. Pharmacological manipulation of GABAergic transmission, either by blocking GABAA receptors or by hyperpolarizing the GABAA reversal potential, converted SLEs to short interictal-like bursts. Together, our results support a model in which pre-ictal GABAA receptor-mediated chloride influx shifts EGABA to produce a positive feedback loop that contributes to the initiation of seizure activity. [Copyright &y& Elsevier]

Published

2012