Neurosteroid modulation of GABAA receptors: Molecular determinants and significance in health and disease

GABAA receptors-(Rs) are fundamental for the maintenance of an efficient inhibitory function in the central nervous system (CNS). Their dysfunction is associated with a wide range of CNS disorders, many of which characterized by seizures and epilepsy. Recently, an increased use-dependent desensitization due to a repetitive GABA stimulation (GABAA current rundown) of GABAARs has been associated with drug-resistant temporal lobe epilepsy (TLE). Here, we aimed to investigate the molecular determinants of GABAA current rundown with two different heterologous expression systems (Xenopus oocytes and human embryonic kidney cells; HEK) which allowed us to manipulate receptor stoichiometry and to study the GABAA current rundown on different GABAAR configurations. To this purpose, we performed electrophysiology experiments using two-electrode voltage clamp in oocytes and confirming part of our results in HEK. We found that different degrees of GABAA current rundown can be associated with the expression of different GABAAR β-subunits reaching the maximum current decrease when functional α1β2 receptors are expressed. Furthermore, the blockade of phosphatases can prevent the current rundown observed in α1β2 GABAARs. Since GABAAR represents one important therapeutic target in the treatment of human epilepsy, our results could open new perspectives on the therapeutic management of drug-resistant patients showing a GABAergic impairment.

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Molecular Determinants underlying Delta Selective Compound 2 (DS2) Activity at δ-Containing GABAA Receptors

Molecular Pharmacology ◽

10.1124/molpharm.121.000266 ◽

2021 ◽

pp. MOLPHARM-AR-2021-000266

Author(s):

Christina B. Falk-Petersen ◽

Frederik Rostrup ◽

Rebekka Löffler ◽

Stine Buchleihtner ◽

Kasper Harpsøe ◽

...

Keyword(s):

Gabaa Receptors ◽

Molecular Determinants

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Molecular determinants of health and disease

Biological Chemistry ◽

10.1515/hsz-2021-0390 ◽

2021 ◽

Vol 0 (0) ◽

Author(s):

Stephan Ludwig ◽

Sabine Blass-Kampmann ◽

Frank Ulrich Müller

Keyword(s):

Determinants Of Health ◽

Molecular Determinants ◽

Health And Disease

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Musings from an Unlikely Clinician–Scientist

Anesthesiology ◽

10.1097/aln.0000000000002881 ◽

2019 ◽

Vol 131 (4) ◽

pp. 795-800

Author(s):

Beverley A. Orser

Keyword(s):

Gabaa Receptors ◽

Drug Targets ◽

Research Award ◽

Acid Type ◽

Health And Disease ◽

Clinician Scientist ◽

American Society ◽

American Society Of Anesthesiologists ◽

Novel Drug

Abstract This article, which stems from the 2018 American Society of Anesthesiologists Excellence in Research Award Lecture, aims to encourage young investigators, offer advice, and share several early life experiences that have influenced the author’s career as an anesthesiologist and clinician–scientist. The article also describes key discoveries that have increased understanding of the role of γ-aminobutyric acid type A (GABAA) receptors in health and disease. The author’s research team identified the unique pharmacologic properties of extrasynaptic GABAA receptors and their role in the anesthetic state. The author’s team also showed that extrasynaptic GABAA receptors expressed in neuronal and nonneuronal cells contribute to a variety of disorders and are novel drug targets. The author’s overarching message is that young investigators must create their own unique narratives, train hard, be relentless in their studies and—most important—enjoy the journey of discovering new truths that will ultimately benefit patients.

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Endocytosis: A Turnover Mechanism Controlling Ion Channel Function

Cells ◽

10.3390/cells9081833 ◽

2020 ◽

Vol 9 (8) ◽

pp. 1833

Author(s):

Irene Estadella ◽

Oriol Pedrós-Gámez ◽

Magalí Colomer-Molera ◽

Manel Bosch ◽

Alexander Sorkin ◽

...

Keyword(s):

Posttranslational Modification ◽

Transmembrane Proteins ◽

Receptor Activation ◽

Vital Role ◽

Rab Proteins ◽

Cellular Internalization ◽

Molecular Determinants ◽

Health And Disease ◽

Endocytic Pathways

Ion channels (IChs) are transmembrane proteins that selectively drive ions across membranes. The function of IChs partially relies on their abundance and proper location in the cell, fine-tuned by the delicate balance between secretory, endocytic, and degradative pathways. The disruption of this balance is associated with several diseases, such as Liddle’s and long QT syndromes. Because of the vital role of these proteins in human health and disease, knowledge of ICh turnover is essential. Clathrin-dependent and -independent mechanisms have been the primary mechanisms identified with ICh endocytosis and degradation. Several molecular determinants recognized by the cellular internalization machinery have been discovered. Moreover, specific conditions can trigger the endocytosis of many IChs, such as the activation of certain receptors, hypokalemia, and some drugs. Ligand-dependent receptor activation primarily results in the posttranslational modification of IChs and the recruitment of important mediators, such as β-arrestins and ubiquitin ligases. However, endocytosis is not a final fate. Once internalized into endosomes, IChs are either sorted to lysosomes for degradation or recycled back to the plasma membrane. Rab proteins are crucial participants during these turnover steps. In this review, we describe the major ICh endocytic pathways, the signaling inputs triggering ICh internalization, and the key mediators of this essential cellular process.

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Drug Induced Changes in Cell Organelles

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100100299 ◽

1968 ◽

Vol 26 ◽

pp. 110-111

Author(s):

Sarah A. Luse

Keyword(s):

Clinical Medicine ◽

Cell Organelles ◽

Riboflavin Deficiency ◽

Drug Induced ◽

New Era ◽

Health And Disease ◽

In The Beginning ◽

Cellular Pathology ◽

Induced Changes ◽

The Impact

In the mid-nineteenth century Virchow revolutionized pathology by introduction of the concept of “cellular pathology”. Today, a century later, this term has increasing significance in health and disease. We now are in the beginning of a new era in pathology, one which might well be termed “organelle pathology” or “subcellular pathology”. The impact of lysosomal diseases on clinical medicine exemplifies this role of pathology of organelles in elucidation of disease today.Another aspect of cell organelles of prime importance is their pathologic alteration by drugs, toxins, hormones and malnutrition. The sensitivity of cell organelles to minute alterations in their environment offers an accurate evaluation of the site of action of drugs in the study of both function and toxicity. Examples of mitochondrial lesions include the effect of DDD on the adrenal cortex, riboflavin deficiency on liver cells, elevated blood ammonia on the neuron and some 8-aminoquinolines on myocardium.

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Detection and mapping of interactions between chromatin and the nuclear envelope in drosophila embryos

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100140191 ◽

1995 ◽

Vol 53 ◽

pp. 764-765

Author(s):

W.F. Marshall ◽

A.F. Dernburg ◽

B. Harmon ◽

J.W. Sedat

Keyword(s):

Nuclear Envelope ◽

Chromatin Condensation ◽

Three Dimensional ◽

Physiological Role ◽

Nuclear Surface ◽

Intact Cells ◽

Molecular Determinants ◽

Surface Harmonic ◽

Drosophila Embryos

Interactions between chromatin and nuclear envelope (NE) have been implicated in chromatin condensation, gene regulation, nuclear reassembly, and organization of chromosomes within the nucleus. To further investigate the physiological role played by such interactions, it will be necessary to determine which loci specifically interact with the nuclear envelope. This will not only facilitate identification of the molecular determinants of this interaction, but will also allow manipulation of the pattern of chromatin-NE interactions to probe possible functions. We have developed a microscopic approach to detect and map chromatin-NE interactions inside intact cells.Fluorescence in situ hybridization (FISH) is used to localize specific chromosomal regions within the nucleus of Drosophila embryos and anti-lamin immunofluorescence is used to detect the nuclear envelope. Widefield deconvolution microscopy is then used to obtain a three-dimensional image of the sample (Fig. 1). The nuclear surface is represented by a surface-harmonic expansion (Fig 2). A statistical test for association of the FISH spot with the surface is then performed.

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SAC3B is a target of CML19, the centrin 2 of Arabidopsis thaliana

Biochemical Journal ◽

10.1042/bcj20190674 ◽

2020 ◽

Vol 477 (1) ◽

pp. 173-189 ◽

Cited By ~ 1

Author(s):

Marco Pedretti ◽

Carolina Conter ◽

Paola Dominici ◽

Alessandra Astegno

Keyword(s):

Excision Repair ◽

Complex Structure ◽

Binding Motif ◽

C Terminus ◽

Repair Protein ◽

Nucleotide Excision ◽

Ef Hand ◽

Molecular Determinants ◽

Structure In Solution

Arabidopsis centrin 2, also known as calmodulin-like protein 19 (CML19), is a member of the EF-hand superfamily of calcium (Ca2+)-binding proteins. In addition to the notion that CML19 interacts with the nucleotide excision repair protein RAD4, CML19 was suggested to be a component of the transcription export complex 2 (TREX-2) by interacting with SAC3B. However, the molecular determinants of this interaction have remained largely unknown. Herein, we identified a CML19-binding site within the C-terminus of SAC3B and characterized the binding properties of the corresponding 26-residue peptide (SAC3Bp), which exhibits the hydrophobic triad centrin-binding motif in a reversed orientation (I8W4W1). Using a combination of spectroscopic and calorimetric experiments, we shed light on the SAC3Bp–CML19 complex structure in solution. We demonstrated that the peptide interacts not only with Ca2+-saturated CML19, but also with apo-CML19 to form a protein–peptide complex with a 1 : 1 stoichiometry. Both interactions involve hydrophobic and electrostatic contributions and include the burial of Trp residues of SAC3Bp. However, the peptide likely assumes different conformations upon binding to apo-CML19 or Ca2+-CML19. Importantly, the peptide dramatically increases the affinity for Ca2+ of CML19, especially of the C-lobe, suggesting that in vivo the protein would be Ca2+-saturated and bound to SAC3B even at resting Ca2+-levels. Our results, providing direct evidence that Arabidopsis SAC3B is a CML19 target and proposing that CML19 can bind to SAC3B through its C-lobe independent of a Ca2+ stimulus, support a functional role for these proteins in TREX-2 complex and mRNA export.

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The Laryngeal Epithelium in Reflux

Perspectives on Voice and Voice Disorders ◽

10.1044/vvd21.3.112 ◽

2011 ◽

Vol 21 (3) ◽

pp. 112-117 ◽

Cited By ~ 2

Author(s):

Elizabeth Erickson-Levendoski ◽

Mahalakshmi Sivasankar

Keyword(s):

Laryngopharyngeal Reflux ◽

Critical Role ◽

Structure And Function ◽

Laryngeal Disease ◽

Health And Disease ◽

And Function ◽

The Impact

The epithelium plays a critical role in the maintenance of laryngeal health. This is evident in that laryngeal disease may result when the integrity of the epithelium is compromised by insults such as laryngopharyngeal reflux. In this article, we will review the structure and function of the laryngeal epithelium and summarize the impact of laryngopharyngeal reflux on the epithelium. Research investigating the ramifications of reflux on the epithelium has improved our understanding of laryngeal disease associated with laryngopharyngeal reflux. It further highlights the need for continued research on the laryngeal epithelium in health and disease.

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Studies on Gastric Mucus in Health and Disease

Gastroenterology ◽

10.1016/s0016-5085(65)80065-8 ◽

1965 ◽

Vol 48 (6) ◽

pp. 758-767 ◽

Cited By ~ 10

Author(s):

Lansing C. Hoskins ◽

Norman Zamcheck

Keyword(s):

Gastric Mucus ◽

Health And Disease

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