45,365 results on '"Gamma-aminobutyric acid"'
Search Results
2. GABAergic signalling in the suprachiasmatic nucleus is required for coherent circadian rhythmicity.
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Klett, Nathan, Gompf, Heinrich, Allen, Charles, Cravetchi, Olga, Hablitz, Lauren, Gunesch, Ali, Irwin, Robert, Todd, William, Saper, Clifford, and Fuller, Patrick
- Subjects
GABA ,circadian rhythm ,mouse ,synaptic transmission ,vesicular GABA transporter ,Animals ,Circadian Rhythm ,Suprachiasmatic Nucleus ,gamma-Aminobutyric Acid ,Mice ,Synaptic Transmission ,Male ,Mice ,Inbred C57BL ,Signal Transduction - Abstract
The suprachiasmatic nucleus is the circadian pacemaker of the mammalian brain. Suprachiasmatic nucleus neurons display synchronization of their firing frequency on a circadian timescale, which is required for the pacemaker function of the suprachiasmatic nucleus. However, the mechanisms by which suprachiasmatic nucleus neurons remain synchronized in vivo are poorly understood, although synaptic communication is considered indispensable. Suprachiasmatic nucleus neurons contain the neurotransmitter GABA and express GABA receptors. This has inspired the hypothesis that GABA signalling may play a central role in network synchronization, although this remains untested in vivo. Here, using local genetic deletion, we show that disruption of GABA synaptic transmission within the suprachiasmatic nucleus of adult mice results in the eventual deterioration of physiological and behavioural rhythmicity in vivo and concomitant cellular desynchrony in vitro. These findings suggest that intercellular GABA signalling is essential for behavioural rhythmicity and cellular synchrony of the suprachiasmatic nucleus neural network.
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- 2024
3. Probiotics for Anxiety Study
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People Science, Inc.
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- 2024
4. Drug-induced change in transmitter identity is a shared mechanism generating cognitive deficits.
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Pratelli, Marta, Hakimi, Anna, Thaker, Arth, Jang, Hyeonseok, Li, Hui-Quan, Godavarthi, Swetha, Lim, Byung, and Spitzer, Nicholas
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Animals ,Male ,Methamphetamine ,Prefrontal Cortex ,Mice ,Phencyclidine ,Ventral Tegmental Area ,gamma-Aminobutyric Acid ,Cognitive Dysfunction ,Mice ,Inbred C57BL ,Dopaminergic Neurons ,GABAergic Neurons ,Glutamic Acid ,Clozapine ,Memory Disorders - Abstract
Cognitive deficits are long-lasting consequences of drug use, yet the convergent mechanism by which classes of drugs with different pharmacological properties cause similar deficits is unclear. We find that both phencyclidine and methamphetamine, despite differing in their targets in the brain, cause the same glutamatergic neurons in the medial prefrontal cortex of male mice to gain a GABAergic phenotype and decrease expression of their glutamatergic phenotype. Suppressing drug-induced gain of GABA with RNA-interference prevents appearance of memory deficits. Stimulation of dopaminergic neurons in the ventral tegmental area is necessary and sufficient to produce this gain of GABA. Drug-induced prefrontal hyperactivity drives this change in transmitter identity. Returning prefrontal activity to baseline, chemogenetically or with clozapine, reverses the change in transmitter phenotype and rescues the associated memory deficits. This work reveals a shared and reversible mechanism that regulates the appearance of cognitive deficits upon exposure to different drugs.
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- 2024
5. Embryonic exposure to environmental factors drives transmitter switching in the neonatal mouse cortex causing autistic-like adult behavior.
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Godavarthi, Swetha, Li, Hui-Quan, Pratelli, Marta, and Spitzer, Nicholas
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autism spectrum disorders ,environmental models of autism ,neurotransmitter switch ,poly inosine:cytosine ,valproic acid ,Animals ,Female ,Mice ,Male ,Pregnancy ,Valproic Acid ,gamma-Aminobutyric Acid ,Interneurons ,Animals ,Newborn ,Behavior ,Animal ,Prenatal Exposure Delayed Effects ,Glutamate Decarboxylase ,Autistic Disorder ,Glutamic Acid ,Neurotransmitter Agents ,Poly I-C ,Prefrontal Cortex ,Autism Spectrum Disorder ,Cholecystokinin ,Parvalbumins ,Mice ,Inbred C57BL ,Stereotyped Behavior - Abstract
Autism spectrum disorders (ASD) can be caused by environmental factors. These factors act early in the development of the nervous system and induce stereotyped repetitive behaviors and diminished social interactions, among other outcomes. Little is known about how these behaviors are produced. In pregnant women, delivery of valproic acid (VPA) (to control seizure activity or stabilize mood) or immune activation by a virus increases the incidence of ASD in offspring. We found that either VPA or Poly Inosine:Cytosine (which mimics a viral infection), administered at mouse embryonic day 12.5, induced a neurotransmitter switch from GABA to glutamate in PV- and CCK-expressing interneurons in the medial prefrontal cortex by postnatal day 10. The switch was present for only a brief period during early postnatal development, observed in male and female mice at postnatal day 21 and reversed in both males and females by postnatal day 30. At postnatal day 90, male mice exhibited stereotyped repetitive behaviors and diminished social interaction while female mice exhibited only stereotyped repetitive behavior. Transfecting GAD1 in PV- and CCK-expressing interneurons at postnatal day 10, to reintroduce GABA expression, overrode the switch and prevented expression of autistic-like behavior. These findings point to an important role of neurotransmitter switching in mediating the environmental causes of autism.
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- 2024
6. Association Between Serum and Neuroimaging Measurements of the GABAergic System
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Francois Corbin, Full professor, Department of biochemistry
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- 2024
7. Haploinsufficiency underlies the neurodevelopmental consequences of SLC6A1 variants.
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Silva, Dina, Trinidad, Marena, Ljungdahl, Alicia, Revalde, Jezrael, Berguig, Geoffrey, Wallace, William, Patrick, Cory, Bomba, Lorenzo, Arkin, Michelle, Dong, Shan, Estrada, Karol, Hutchinson, Keino, LeBowitz, Jonathan, Schlessinger, Avner, Johannesen, Katrine, Møller, Rikke, Giacomini, Kathleen, Froelich, Steven, Sanders, Stephan, and Wuster, Arthur
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GABA uptake ,GAT-1 ,GAT1 ,SLC6A1 ,autism spectrum disorders ,epilepsy with myoclonic-atonic seizures ,missense vulnerability ,neurodevelopmental delay ,Humans ,GABA Plasma Membrane Transport Proteins ,Haploinsufficiency ,Mutation ,Missense ,gamma-Aminobutyric Acid ,Neurodevelopmental Disorders ,Developmental Disabilities ,Autistic Disorder ,HEK293 Cells - Abstract
Heterozygous variants in SLC6A1, encoding the GAT-1 GABA transporter, are associated with seizures, developmental delay, and autism. The majority of affected individuals carry missense variants, many of which are recurrent germline de novo mutations, raising the possibility of gain-of-function or dominant-negative effects. To understand the functional consequences, we performed an in vitro GABA uptake assay for 213 unique variants, including 24 control variants. De novo variants consistently resulted in a decrease in GABA uptake, in keeping with haploinsufficiency underlying all neurodevelopmental phenotypes. Where present, ClinVar pathogenicity reports correlated well with GABA uptake data; the functional data can inform future reports for the remaining 72% of unscored variants. Surface localization was assessed for 86 variants; two-thirds of loss-of-function missense variants prevented GAT-1 from being present on the membrane while GAT-1 was on the surface but with reduced activity for the remaining third. Surprisingly, recurrent de novo missense variants showed moderate loss-of-function effects that reduced GABA uptake with no evidence for dominant-negative or gain-of-function effects. Using linear regression across multiple missense severity scores to extrapolate the functional data to all potential SLC6A1 missense variants, we observe an abundance of GAT-1 residues that are sensitive to substitution. The extent of this missense vulnerability accounts for the clinically observed missense enrichment; overlap with hypermutable CpG sites accounts for the recurrent missense variants. Strategies to increase the expression of the wild-type SLC6A1 allele are likely to be beneficial across neurodevelopmental disorders, though the developmental stage and extent of required rescue remain unknown.
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- 2024
8. Ventral pallidum GABA and glutamate neurons drive approach and avoidance through distinct modulation of VTA cell types.
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Faget, Lauren, Oriol, Lucie, Lee, Wen-Chun, Zell, Vivien, Sargent, Cody, Flores, Andrew, Hollon, Nick, Ramanathan, Dhakshin, and Hnasko, Thomas
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Ventral Tegmental Area ,Animals ,Glutamic Acid ,Basal Forebrain ,Male ,Reward ,GABAergic Neurons ,Avoidance Learning ,Mice ,Dopamine ,Nucleus Accumbens ,Neurons ,gamma-Aminobutyric Acid ,Dopaminergic Neurons ,Mice ,Inbred C57BL ,Behavior ,Animal - Abstract
The ventral pallidum (VP) contains GABA and glutamate neurons projecting to ventral tegmental area (VTA) whose stimulation drives approach and avoidance, respectively. Yet little is known about the mechanisms by which VP cell types shape VTA activity and drive behavior. Here, we found that both VP GABA and glutamate neurons were activated during approach to reward or by delivery of an aversive stimulus. Stimulation of VP GABA neurons inhibited VTA GABA, but activated dopamine and glutamate neurons. Remarkably, stimulation-evoked activation was behavior-contingent such that VTA recruitment was inhibited when evoked by the subjects own action. Conversely, VP glutamate neurons activated VTA GABA, as well as dopamine and glutamate neurons, despite driving aversion. However, VP glutamate neurons evoked dopamine in aversion-associated ventromedial nucleus accumbens (NAc), but reduced dopamine release in reward-associated dorsomedial NAc. These findings show how heterogeneous VP projections to VTA can be engaged to shape approach and avoidance behaviors.
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- 2024
9. Network-level encoding of local neurotransmitters in cortical astrocytes
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Cahill, Michelle K, Collard, Max, Tse, Vincent, Reitman, Michael E, Etchenique, Roberto, Kirst, Christoph, and Poskanzer, Kira E
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Biomedical and Clinical Sciences ,Neurosciences ,Brain Disorders ,Underpinning research ,1.1 Normal biological development and functioning ,Neurological ,Animals ,Female ,Male ,Mice ,Astrocytes ,Calcium ,Calcium Signaling ,Cell Communication ,Cerebral Cortex ,gamma-Aminobutyric Acid ,Glutamic Acid ,Mice ,Inbred C57BL ,Nerve Net ,Neurons ,Neurotransmitter Agents ,Time Factors ,General Science & Technology - Abstract
Astrocytes, the most abundant non-neuronal cell type in the mammalian brain, are crucial circuit components that respond to and modulate neuronal activity through calcium (Ca2+) signalling1-7. Astrocyte Ca2+ activity is highly heterogeneous and occurs across multiple spatiotemporal scales-from fast, subcellular activity3,4 to slow, synchronized activity across connected astrocyte networks8-10-to influence many processes5,7,11. However, the inputs that drive astrocyte network dynamics remain unclear. Here we used ex vivo and in vivo two-photon astrocyte imaging while mimicking neuronal neurotransmitter inputs at multiple spatiotemporal scales. We find that brief, subcellular inputs of GABA and glutamate lead to widespread, long-lasting astrocyte Ca2+ responses beyond an individual stimulated cell. Further, we find that a key subset of Ca2+ activity-propagative activity-differentiates astrocyte network responses to these two main neurotransmitters, and may influence responses to future inputs. Together, our results demonstrate that local, transient neurotransmitter inputs are encoded by broad cortical astrocyte networks over a minutes-long time course, contributing to accumulating evidence that substantial astrocyte-neuron communication occurs across slow, network-level spatiotemporal scales12-14. These findings will enable future studies to investigate the link between specific astrocyte Ca2+ activity and specific functional outputs, which could build a consistent framework for astrocytic modulation of neuronal activity.
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- 2024
10. Postsynaptic receptors regulate presynaptic transmitter stability through transsynaptic bridges.
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Godavarthi, Swetha, Hiramoto, Masaki, Ignatyev, Yuri, Levin, Jacqueline, Li, Hui-Quan, Pratelli, Marta, Borchardt, Jennifer, Czajkowski, Cynthia, Sweeney, Lora, Cline, Hollis, Spitzer, Nicholas, and Borodinsky, Laura
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neurotransmitters ,transmitter receptors ,transmitter selection ,transmitter stability ,transsynaptic bridges ,Synapses ,Receptors ,Cholinergic ,Synaptic Transmission ,Motor Neurons ,Receptors ,GABA-A ,gamma-Aminobutyric Acid ,Neurotransmitter Agents ,Cholinergic Agents ,Receptors ,Presynaptic - Abstract
Stable matching of neurotransmitters with their receptors is fundamental to synapse function and reliable communication in neural circuits. Presynaptic neurotransmitters regulate the stabilization of postsynaptic transmitter receptors. Whether postsynaptic receptors regulate stabilization of presynaptic transmitters has received less attention. Here, we show that blockade of endogenous postsynaptic acetylcholine receptors (AChR) at the neuromuscular junction destabilizes the cholinergic phenotype in motor neurons and stabilizes an earlier, developmentally transient glutamatergic phenotype. Further, expression of exogenous postsynaptic gamma-aminobutyric acid type A receptors (GABAA receptors) in muscle cells stabilizes an earlier, developmentally transient GABAergic motor neuron phenotype. Both AChR and GABAA receptors are linked to presynaptic neurons through transsynaptic bridges. Knockdown of specific components of these transsynaptic bridges prevents stabilization of the cholinergic or GABAergic phenotypes. Bidirectional communication can enforce a match between transmitter and receptor and ensure the fidelity of synaptic transmission. Our findings suggest a potential role of dysfunctional transmitter receptors in neurological disorders that involve the loss of the presynaptic transmitter.
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- 2024
11. GABAergic Inhibition Controls Receptive Field Size, Sensitivity, and Contrast Preference of Direction Selective Retinal Ganglion Cells Near the Threshold of Vision
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Roy, Suva, Yao, Xiaoyang, Rathinavelu, Jay, and Field, Greg D
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Biomedical and Clinical Sciences ,Ophthalmology and Optometry ,Eye Disease and Disorders of Vision ,Neurosciences ,Retinal Ganglion Cells ,Gap Junctions ,Inhibition ,Psychological ,Motion ,gamma-Aminobutyric Acid ,adaptation ,electrode array ,retina ,Medical and Health Sciences ,Psychology and Cognitive Sciences ,Neurology & Neurosurgery - Abstract
Information about motion is encoded by direction-selective retinal ganglion cells (DSGCs). These cells reliably transmit this information across a broad range of light levels, spanning moonlight to sunlight. Previous work indicates that adaptation to low light levels causes heterogeneous changes to the direction tuning of ON-OFF (oo)DSGCs and suggests that superior-preferring ON-OFF DSGCs (s-DSGCs) are biased toward detecting stimuli rather than precisely signaling direction. Using a large-scale multielectrode array, we measured the absolute sensitivity of ooDSGCs and found that s-DSGCs are 10-fold more sensitive to dim flashes of light than other ooDSGCs. We measured their receptive field (RF) sizes and found that s-DSGCs also have larger receptive fields than other ooDSGCs; however, the size difference does not fully explain the sensitivity difference. Using a conditional knock-out of gap junctions and pharmacological manipulations, we demonstrate that GABA-mediated inhibition contributes to the difference in absolute sensitivity and receptive field size at low light levels, while the connexin36-mediated gap junction coupling plays a minor role. We further show that under scotopic conditions, ooDSGCs exhibit only an ON response, but pharmacologically removing GABA-mediated inhibition unmasks an OFF response. These results reveal that GABAergic inhibition controls and differentially modulates the responses of ooDSGCs under scotopic conditions.
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- 2024
12. Extracellular glutamate and GABA transients at the transition from interictal spiking to seizures.
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Shimoda, Yoshiteru, Leite, Marco, Graham, Robert, Marvin, Jonathan, Hasseman, Jeremy, Kolb, Ilya, Magloire, Vincent, Kullmann, Dimitri, and Looger, Loren
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disinhibition ,ictogenesis ,neocortex ,paroxysm ,Humans ,Glutamic Acid ,Seizures ,Epilepsies ,Partial ,Cognition ,gamma-Aminobutyric Acid - Abstract
Focal epilepsy is associated with intermittent brief population discharges (interictal spikes), which resemble sentinel spikes that often occur at the onset of seizures. Why interictal spikes self-terminate whilst seizures persist and propagate is incompletely understood. We used fluorescent glutamate and GABA sensors in an awake rodent model of neocortical seizures to resolve the spatiotemporal evolution of both neurotransmitters in the extracellular space. Interictal spikes were accompanied by brief glutamate transients which were maximal at the initiation site and rapidly propagated centrifugally. GABA transients lasted longer than glutamate transients and were maximal ∼1.5 mm from the focus where they propagated centripetally. Prior to seizure initiation GABA transients were attenuated, whilst glutamate transients increased, consistent with a progressive failure of local inhibitory restraint. As seizures increased in frequency, there was a gradual increase in the spatial extent of spike-associated glutamate transients associated with interictal spikes. Neurotransmitter imaging thus reveals a progressive collapse of an annulus of feed-forward GABA release, allowing seizures to escape from local inhibitory restraint.
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- 2024
13. Evaluation of Midazolam-Ketamine-Allopregnanolone Combination Therapy against Cholinergic-Induced Status Epilepticus in Rats.
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Nguyen, Donna, Stone, Michael, Schultz, Caroline, de Araujo Furtado, Marcio, Niquet, Jerome, Wasterlain, Claude, and Lumley, Lucille
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Rats ,Male ,Animals ,Midazolam ,Ketamine ,Pregnanolone ,Soman ,Anticonvulsants ,Neuroinflammatory Diseases ,Neurosteroids ,Status Epilepticus ,Seizures ,Benzodiazepines ,Cholinergic Agents ,Receptors ,GABA-A ,gamma-Aminobutyric Acid - Abstract
Status epilepticus (SE) is a life-threatening development of self-sustaining seizures that becomes resistant to benzodiazepines when treatment is delayed. Benzodiazepine pharmacoresistance is thought in part to result from internalization of synaptic GABAA receptors, which are the main target of the drug. The naturally occurring neurosteroid allopregnanolone is a therapy of interest against SE for its ability to modulate all isoforms of GABAA receptors. Ketamine, an N-methyl-D-aspartate (NMDA) receptor antagonist, has been partially effective in combination with benzodiazepines in mitigating SE-associated neurotoxicity. In this study, allopregnanolone as an adjunct to midazolam or midazolam-ketamine combination therapy was evaluated for efficacy against cholinergic-induced SE. Adult male rats implanted with electroencephalographic (EEG) telemetry devices were exposed to the organophosphorus chemical (OP) soman (GD) and treated with an admix of atropine sulfate and HI-6 at 1 minute after exposure followed by midazolam, midazolam-allopregnanolone, or midazolam-ketamine-allopregnanolone 40 minutes after seizure onset. Neurodegeneration, neuronal loss, and neuroinflammation were assessed 2 weeks after GD exposure. Seizure activity, EEG power integral, and epileptogenesis were also compared among groups. Overall, midazolam-ketamine-allopregnanolone combination therapy was effective in reducing cholinergic-induced toxic signs and neuropathology, particularly in the thalamus and hippocampus. Higher dosage of allopregnanolone administered in combination with midazolam and ketamine was also effective in reducing EEG power integral and epileptogenesis. The current study reports that there is a promising potential of neurosteroids in combination with benzodiazepine and ketamine treatments in a GD model of SE. SIGNIFICANCE STATEMENT: Allopregnanolone, a naturally occurring neurosteroid, reduced pathologies associated with soman (GD) exposure such as epileptogenesis, neurodegeneration, and neuroinflammation, and suppressed GD-induced toxic signs when used as an adjunct to midazolam and ketamine in a delayed treatment model of soman-induced status epilepticus (SE) in rats. However, protection was incomplete, suggesting that further studies are needed to identify optimal combinations of antiseizure medications and routes of administration for maximal efficacy against cholinergic-induced SE.
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- 2024
14. Optotagging and characterization of GABAergic rostral ventromedial medulla (RVM) neurons.
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Follansbee, Taylor, Le Chang, Henry, Iodi Carstens, Mirela, Guan, Yun, Carstens, Earl, and Dong, Xinzhong
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Rostral ventromedial medulla ,descending modulation ,gamma-aminobutyric acid ,pain ,pain modulation ,Medulla Oblongata ,Animals ,GABAergic Neurons ,Male ,Rats ,Sprague-Dawley ,Rats - Abstract
The transmission of nociceptive and pruriceptive signals in the spinal cord is greatly influenced by descending modulation from brain areas such as the rostral ventromedial medulla (RVM). Within the RVM three classes of neurons have been discovered which are relevant to spinal pain modulation, the On, Off, and Neutral cells. These neurons were discovered due to their functional response to nociceptive stimulation. On cells are excited, Off cells are inhibited, and Neutral cells have no response to noxious stimulation. Since these neurons are identified by functional response characteristics it has been difficult to molecularly identify them. In the present study, we leverage our ability to perform optotagging within the RVM to determine whether RVM On, Off, and Neutral cells are GABAergic. We found that 27.27% of RVM On cells, 47.37% of RVM Off cells, and 42.6% of RVM Neutral cells were GABAergic. These results demonstrate that RVM On, Off, and Neutral cells represent a heterogeneous population of neurons and provide a reliable technique for the molecular identification of these neurons.
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- 2024
15. Latent Aging Mechanisms in Pain and Sleep (LAMPS)
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National Institute on Aging (NIA) and Thorne HealthTech, Inc
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- 2024
16. Insights into the cellular, molecular, and epigenetic targets of gamma-aminobutyric acid against diabetes: a comprehensive review on its mechanisms.
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Sun, Yu, Mehmood, Arshad, Giampieri, Francesca, Battino, Maurizio Antonio, and Chen, Xiumin
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GABA , *GABA agents , *TREATMENT effectiveness , *INSULIN resistance , *METABOLIC disorders - Abstract
Diabetes is a metabolic disease due to impaired or defective insulin secretion and is considered one of the most serious chronic diseases worldwide. Gamma-aminobutyric acid (GABA) is a naturally occurring non-protein amino acid commonly present in a wide range of foods. A number of studies documented that GABA has good anti-diabetic potential. This review summarized the available dietary sources of GABA as well as animal and human studies on the anti-diabetic properties of GABA, while also discussing the underlying mechanisms. GABA may modulate diabetes through various pathways such as inhibiting the activities of α-amylase and α-glucosidase, promoting β-cell proliferation, stimulating insulin secretion from β-cells, inhibiting glucagon secretion from α-cells, improving insulin resistance and glucose tolerance, and increasing antioxidant and anti-inflammatory activities. However, further mechanistic studies on animals and human are needed to confirm the therapeutic effects of GABA against diabetes. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
17. Reusable Immobilized Lactobacillus futsaii CS3 for Enhanced GABA Synthesis using Low-Cost Substrates in Fermenter-Scale Batch and Fed-Batch Fermentations.
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Thongruck, Kanokwan and Maneerat, Suppasil
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MONOSODIUM glutamate , *IMMOBILIZED cells , *GABA , *LACTIC acid bacteria , *SUGARCANE - Abstract
On the industrial scale, the cost of commercial culture media for the production of gammaaminobutyric acid (GABA) is a very important factor. This study employed a low-cost substrates and byproduct from agri-food industry for GABA synthesis by Lact. futsaii CS3 at the fermenter-scale. Lact. futsaii CS3 cells were immobilized in 3 % (w/v) sodium alginate and employed for GABA synthesis in the optimal modified MRS medium (3.48 % (w/v) cane sugar, 3.84 % (w/v) tuna condensate waste and 10.77 % (w/v) monosodium glutamate (MSG)) with the initial pH medium of 5, fermentation temperature at 37 °C and agitation speed at 30 rpm. During the 60th h of batch fermentation without pH control, immobilized Lact. futsaii CS3 efficiently transformed MSG into the highest GABA of 19.05 g/L, achieving the volumetric productivity of 0.32 g/L/h with a bioconversion rate of 29.01 %. To further enhance GABA production, MSG (7.5 % w/v) was fed into the fermenter during the 48th h of fed-batch fermentation, aiming to amplify GABA synthesis. The maximum GABA (26.28 g/L) was synthesized at 84 h of fed-batch fermentation, and the volumetric productivity and a bioconversion rate of 0.31 g/L/h and 23.59 %, respectively, were obtained. Fed-batch fermentation significantly outperformed batch fermentation, resulting in a 37.95 % increase in GABA production. Moreover, immobilized Lact. futsaii CS3 cells could be reused in 2 batch cycles. In the 1st reusability, the maximum GABA synthesis reached 25.94 g/L, and the volumetric productivity and a bioconversion rate of 0.31 g/L/h and 23.29 %, respectively, were achieved at 84 h of fed-batch fermentation. While in the 2nd reusability, GABA synthesis decreased to 23.29 g/L, with the volumetric productivity and a bioconversion rate of 0.28 g/L/h and 20.91 %, respectively, at 84 h of fed-batch fermentation. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
18. ChangPu YuJin Tang improves Tourette disorder symptoms by modulating amino acid neurotransmitters in IDPN model rats.
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Lu, Man-Qi, Shi, Zheng-Gang, Shang, Jing, Gao, Lü, Gao, Lei, and Gao, Wei-Jiao
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AMINO acid neurotransmitters , *LABORATORY rats , *TOURETTE syndrome , *GABA , *TREATMENT effectiveness - Abstract
Introduction: Changpu Yujin Tang(CPYJT), a Chinese herbal compound, is an effective therapeutic strategy for pediatric patients with Tourette disorder (TD). Therefore, this work aims to investigate the therapeutic mechanisms of CPYJT. Methods: Behavioral and cellular ultrastructural evaluation of the therapeutic effects of CPYJT in TD model rats. Colorimetric methods, reverse transcription‑quantitative PCR, and Western Blot were used to measure the altered levels of GLU, GABA, and the levels of VGLUT1, GLUD1, GABRA3, and GAD65 in the cortex, striatum, and thalamus of the TD model rats after 7, 14, 21, and 28 days of CPYJT administration. Results: CPYJT significantly reduced stereotypic behavior and motor behavior scores in TD model rats. CPYJT ameliorates myelin structural damage in TD model rat neuronal cells. CPYJT decreased GLU content, elevated GABA content, decreased GLUD1 and VGLUT1 levels, and elevated GAD65 and GABRA3 levels in TD model rats' cortex, striatum, and thalamus. CPYJT has different regulatory time points in the cortex, striatum, and thalamus for critical factors of amino acid-based neurotransmission. Conclusion: CPYJT protects behavioral and structural damage of neuronal cells in multiple brain regions in TD model rats. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
- View/download PDF
19. Hybrid substrate-based pH autobuffering GABA fermentation by Levilactobacillus brevis CD0817.
- Author
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Wang, Lingqin, Jia, Mengya, Gao, Dandan, and Li, Haixing
- Abstract
The probiotic fermentation of the bioactive substance gamma-aminobutyric acid (GABA) is an attractive research topic. There is still room for further improvement in reported GABA fermentation methods based on a single substrate (l-glutamic acid or l-monosodium glutamate). Here, we devised a pH auto-buffering strategy to facilitate the fermentation of GABA by Levilactobacillus brevis CD0817. This strategy features a mixture of neutral monosodium l-glutamate plus acidic l-glutamic acid as the substrate. This mixture provides a mild initial pH; moreover, the newly dissolved l-glutamic acid automatically offsets the pH increase caused by substrate decarboxylation, maintaining the acidity essential for GABA fermentation. In this study, a flask trial was first performed to optimize the GABA fermentation parameters of Levilactobacillus brevis CD0817. The optimized parameters were further validated in a 10 L fermenter. The flask trial results revealed that the appropriate fermentation medium was composed of powdery l-glutamic acid (750 g/L), monosodium l-glutamate (34 g/L [0.2 mol/L]), glucose (5 g/L), yeast extract (35 g/L), MnSO
4 ·H2 O (50 mg/L [0.3 mmol/L]), and Tween 80 (1.0 g/L). The appropriate fermentation temperature was 30 °C. The fermenter trial results revealed that GABA was slowly synthesized from 0–4 h, rapidly synthesized until 32 h, and finally reached 353.1 ± 8.3 g/L at 48 h, with the pH increasing from the initial value of 4.56 to the ultimate value of 6.10. The proposed pH auto-buffering strategy may be popular for other GABA fermentations. [ABSTRACT FROM AUTHOR]- Published
- 2024
- Full Text
- View/download PDF
20. Improvement of ɣ-Aminobutyric Acid Production and Cell Viability of Lactiplantibacillus plantarum B7 via Whole-Cell Immobilisation in Repeated Batch Fermentation System.
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Pannerchelvan, Sangkaran, Muhamad, Faris Nulhaqim, Wasoh, Helmi, Mohamed, Mohd Shamzi, Wong, Fadzlie Wong Faizal, Mohamad, Rosfarizan, and Halim, Murni
- Abstract
Whole-cell immobilisation technology involving ℽ-aminobutyric acid GABA biosynthesis using lactic acid bacteria (LAB) has been extensively studied owing to its numerous benefits over free-living bacteria, including enhanced productivity, improved cell viability, ability to prevent cell lysis and protect cells against bacteriophages and other stressful conditions. Therefore, a novel LAB biocatalyst was developed using various fruit and fruit waste, immobilising a potential probiotic strain, Lactiplantibacillus plantarum B7, via an adsorption method to improve GABA and cell viability. Apple and watermelon rind have been known to be the ideal natural supports for L. plantarum B7 owing to higher GABA and lactic acid production and improved cell viability among the other natural supports tested and selected to be used in repeated batch fermentation (RBF) to improve GABA production and cell viability. In general, immobilisation of L. plantarum B7 on natural support has better GABA and lactic acid production with improved cell viability via RBF compared to free cells. Watermelon rind-supported cells and apple-supported cells could produce nine and eight successful GABA cycles, respectively, within RBF, whereas free cells could only produce up to four cycles. When using watermelon rind-supported cells and apple-supported cells in RBF, the GABA titer may be raised by up to 6.7 (218.480 ± 0.280 g/L) and 6 (195.439 ± 0.042 g/L) times, respectively, in comparison to GABA synthesis by free cells in single batch fermentation (32.65 ± 0.029 g/L). Additionally, natural support immobilised L. plantarum B7 could retain half of its cell viability even after the 12th cycle of RBF, while no cell was observed in control. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
21. Hippocampal excitation-inhibition balance underlies the 5-HT2C receptor in modulating depressive behaviours.
- Author
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Shi, Hu-Jiang, Xue, Yi-Ren, Shao, Hua, Wei, Cheng, Liu, Ting, He, Jie, Yang, Yu-Hao, Wang, Hong-Mei, Li, Na, Ren, Si-Qiang, Chang, Lei, Wang, Zhen, and Zhu, Li-Juan
- Subjects
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PYRAMIDAL neurons , *GABAERGIC neurons , *SEROTONIN receptors , *NITRIC-oxide synthases , *GABA - Abstract
The implication of 5-hydroxytryptamine 2C receptor (5-HT2CR) activity in depression is a topic of debate, and the underlying mechanisms remain largely unclear. Here, we elucidate how hippocampal excitation-inhibition (E/I) balance underlies the regulatory effects of 5-HT2CR in depression. Molecular biological analyses showed that chronic mild stress (CMS) reduced the expression of 5-HT2CR in hippocampus. We revealed that inhibition of 5-HT2CR induced depressive-like behaviours, reduced GABA release and shifted the E/I balance towards excitation in CA3 pyramidal neurons using behavioural analyses, microdialysis coupled with mass spectrometry and electrophysiological recordings. Moreover, 5-HT2CR modulated the neuronal nitric oxide synthase (nNOS)-carboxy-terminal PDZ ligand of nNOS (CAPON) interaction by influencing intracellular Ca2+ release, as determined by fibre photometry and coimmunoprecipitation. Notably, disruption of nNOS-CAPON with the specific small molecule compound ZLc-002 or AAV-CMV-CAPON-125C-GFP abolished 5-HT2CR inhibition-induced depressive-like behaviours, as well as the impairment in soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) complex assembly-mediated GABA vesicle release and consequent E/I imbalance. Importantly, optogenetic inhibition of CA3 GABAergic neurons prevented the effects of AAV-CMV-CAPON-125C-GFP on depressive behaviours in the presence of a 5-HT2CR antagonist. Conclusively, our findings disclose the regulatory role of 5-HT2CR in depressive-like behaviours and highlight hippocampal nNOS-CAPON coupling-triggered E/I imbalance as a pivotal cellular event underpinning the behavioural consequences of 5-HT2CR inhibition. [ABSTRACT FROM AUTHOR]
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- 2024
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22. The role of GABA in modulation of taste signaling within the taste bud.
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Mikami, Ayaka, Huang, Hai, Hyodo, Aiko, Horie, Kengo, Yasumatsu, Keiko, Ninomiya, Yuzo, Mitoh, Yoshihiro, Iida, Seiji, and Yoshida, Ryusuke
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GLUTAMATE decarboxylase , *TRANSGENIC mice , *SWEETNESS (Taste) , *GABA , *CARBONIC anhydrase , *GABA receptors , *TASTE buds - Abstract
Taste buds contain 2 types of GABA-producing cells: sour-responsive Type III cells and glial-like Type I cells. The physiological role of GABA, released by Type III cells is not fully understood. Here, we investigated the role of GABA released from Type III cells using transgenic mice lacking the expression of GAD67 in taste bud cells (Gad67-cKO mice). Immunohistochemical experiments confirmed the absence of GAD67 in Type III cells of Gad67-cKO mice. Furthermore, no difference was observed in the expression and localization of cell type markers, ectonucleoside triphosphate diphosphohydrolase 2 (ENTPD2), gustducin, and carbonic anhydrase 4 (CA4) in taste buds between wild-type (WT) and Gad67-cKO mice. Short-term lick tests demonstrated that both WT and Gad67-cKO mice exhibited normal licking behaviors to each of the five basic tastants. Gustatory nerve recordings from the chorda tympani nerve demonstrated that both WT and Gad67-cKO mice similarly responded to five basic tastants when they were applied individually. However, gustatory nerve responses to sweet–sour mixtures were significantly smaller than the sum of responses to each tastant in WT mice but not in Gad67-cKO mice. In summary, elimination of GABA signalling by sour-responsive Type III taste cells eliminates the inhibitory cell–cell interactions seen with application of sour–sweet mixtures. [ABSTRACT FROM AUTHOR]
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- 2024
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23. Sex-Specific Behavioural Deficits in Adulthood following Acute Activation of the GABAA Receptor in the Neonatal Mouse.
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Goikolea-Vives, Ane, Fernandes, Cathy, Thomas, Michael S.C., Thornton, Claire, and Stolp, Helen B.
- Abstract
Introduction: Sex differences exist in the prevalence of neurodevelopmental disorders (NDDs). Part of the aetiology of NDDs has been proposed to be alterations in the balance between excitatory and inhibitory neurotransmission, leading to the question of whether males and females respond differently to altered neurotransmitter balance. We investigated whether pharmacological alteration of GABA
A signalling in early development results in sex-dependent changes in adult behaviours associated with NDDs. Methods: Male and female C57BL/6J mice received intraperitoneal injections of 0.5 mg/kg muscimol or saline on postnatal days (P) 3–5 and were subjected to behavioural testing, specifically open field, light/dark box, marble-burying, sucralose preference, social interaction, and olfactory habituation/dishabituation tests between P60 and P90. Results: Early postnatal administration of muscimol resulted in reduced anxiety in the light/dark box test in both male and female adult mice. Muscimol reduced sucralose preference in males, but not females, whereas female mice showed reduced social behaviours. Regional alterations in cortical thickness were observed in the weeks following GABAA receptor activation, pointing to an evolving structural difference in the brain underlying adult behaviour. Conclusions: We conclude that activation of the GABAA receptor in the first week of life resulted in long-lasting changes in a range of behaviours in adulthood following altered neurodevelopment. Sex of the individual affected the nature and severity of these abnormalities, explaining part of the varied pathophysiology and neurodevelopmental diagnosis that derive from excitatory/inhibitory imbalance. [ABSTRACT FROM AUTHOR]- Published
- 2024
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24. Exogenous GABA-Ca Alleviates Growth Inhibition Induced by a Low-P Environment in Peanuts (Arachis hypogaea).
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Sun, Zhiyu, Ma, Mingzhu, Liu, Huan, Tao, Dongbing, Salam, Shaikh Amjad, Han, Xiaori, Liu, Yifei, and Yong, Jean Wan Hong
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ADENOSINE triphosphatase ,GABA ,PEANUT growing ,REACTIVE oxygen species ,PEANUTS - Abstract
Phosphorus (P) deficiency is a major global factor constraining peanut production. Exogenous γ-aminobutyric acid (GABA) and Ca
2+ are essential to improve stress resilience in peanuts growing under low-P conditions. This study therefore examined the detailed physiological effects of GABA-Ca on restoring peanut growth under low-P conditions. These included the root–shoot ratio, leaf nutrients, photochemical activity, reactive oxygen species (ROS), cyclic electron flow (CEF), ATP synthase activity, and the proton gradient (∆pH), all of which were measured under low-P (LP, 0.5 mM) and optimized-P (1 mM) conditions. Specifically, supplying GABA-Ca under LP conditions regulated the ∆pH by causing adjustments in CEF and ATP synthase activities, buffering the photosystems' activities, restoring the antioxidant enzyme system, and lowering ROS production. Interestingly, exogenous GABA-Ca restored peanut growth under low-P conditions, possibly by the putative signaling crosstalk between GABA and Ca2+ . The plausible signal amplification between GABA and Ca2+ suggested that the combination of GABA and Ca, may offer an effective strategy for enhancing peanut adaptation to low-P conditions. Moving forward, the strategic supplementation of GABA-Ca, either during cultivation or through the formulation of novel fertilizers, opens up many possibilities for better and more resilient plant production in soils with low P. [ABSTRACT FROM AUTHOR]- Published
- 2024
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25. Augmenting Rice Defenses: Exogenous Calcium Elevates GABA Levels Against WBPH Infestation.
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Jan, Rahmatullah, Asaf, Sajjad, Lubna, Farooq, Muhammad, Asif, Saleem, Khan, Zakirullah, Park, Jae-Ryoung, Kim, Eun-Gyeong, Jang, Yoon-Hee, and Kim, Kyung-Min
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PHYSIOLOGY ,GABA ,SALICYLIC acid ,AMINO acids ,ABSCISIC acid - Abstract
This study investigates the impact of exogenous calcium and gamma-aminobutyric acid (GABA) supplementation on rice growth and stress tolerance under white-backed planthopper (WBPH) infestation. We evaluated several phenotypic traits, including shoot/root length, leaf width, tiller number, panicle length, and relative water content, alongside physiological markers such as oxidative stress indicators, antioxidant enzymes activities, hormonal levels, and amino acids biosynthesis. Our results indicate that WBPH stress significantly reduces growth parameters but calcium and GABA supplementation markedly enhance shoot length (by 26% and 36%) and root length (by 38% and 64%), respectively, compared to WBPH-infested plants. Both supplementations also reduced oxidative stress, as evidenced by decreased H
2 O2 and O2 •− levels and a lower electrolyte leakage. Notably, calcium and GABA treatments increased antioxidant enzyme activities, with GABA boosting catalase (CAT) activity by 800%, peroxidase (POD) by 144%, and superoxide dismutase (SOD) by 62% under WBPH stress. Additionally, calcium and GABA enhanced the accumulation of stress hormones (abscisic acid ABA) and salicylic acid (SA) and promoted stomatal closure, contributing to improved water conservation. This study reveals that calcium regulates the GABA shunt pathway, significantly increasing GABA and succinate levels in both root and shoot. Furthermore, calcium and GABA supplementation enhance the biosynthesis of key amino acids and improve ion homeostasis, particularly elevating calcium (Ca), iron (Fe), and magnesium (Mg) levels under WBPH stress. Overall, this study highlights the potential of exogenous calcium and GABA as effective strategies for enhancing rice plant tolerance to WBPH infestation by modulating various physiological and biochemical mechanisms. Further research is warranted to fully elucidate the underlying mechanisms of action. [ABSTRACT FROM AUTHOR]- Published
- 2024
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26. Regulation of gut microbiota and serum neurotransmitters in mice by Streptococcus thermophilus GA8‐ and Lacticaseibacillus rhamnosus HAO9‐fermented milk containing high levels of gamma‐aminobutyric acid.
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Han, Mei, Dong, Yao, Wang, Shuo, Huang, Xiaohui, Bai, Chen, and Gai, Zhonghui
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GUT microbiome , *STREPTOCOCCUS thermophilus , *FERMENTED milk , *LABORATORY mice , *PATIENT monitoring , *PROBIOTICS , *GLUTAMINE - Abstract
BACKGROUND: Gamma‐aminobutyric acid (GABA) is an important neurotransmitter in the human body, with several negative emotions reported as being associated with GABA dysregulation. This study investigates the safety and modulatory effects of GABA‐enriched milk, fermented by Streptococcus thermophilus GA8 and Lacticasebacillus rhamnosus HAO9, on the gut microbiota and neurotransmitter profiles in mice. RESULTS: Through rigorous culturing and fermentation processes, we achieved consistent GABA production in milk, with concentrations reaching 4.6 and 8.5 g L−1 for GA8‐fermented and co‐fermented milk, respectively, after 48 h. Using SPF male C57BL/6J mice, we administered either mono‐culture or combined‐culture milk treatments and monitored physiological impacts. The treatments did not affect mouse body weight but induced significant changes in gut microbiota composition. Beta diversity analysis revealed distinct microbial profiles between treatment groups, highlighting fermentation‐specific microbial shifts, such as an increase in Verrucomicrobia for the GA8 group and a modulation in Saccharibacteria_genera_incertae_sedis for the GA8 + HAO9 group. Serum neurotransmitter levels were elevated in both treatment groups, with significant increases in l‐glutamine, l‐tryptophan and, notably, serotonin hydrochloride in the GA8 + HAO9 group. Correlation analysis identified a positive association between specific bacterial genera and neurotransmitter levels, suggesting a probiotic effect on neuroactive substances. CONCLUSION: These findings suggest that fermented milk has potential as a probiotic supplement for mood improvement and stress relief, highlighting its role in modulating the gut–brain axis. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]
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- 2024
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27. Application of lactic acid bacteria-derived GABA in food industry: GABA-producing strains, biosynthesis, and health benefits.
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Ibrahim, N. F., Aris, F., Mohd Jalil, M. T., Mohamed Yunus, N., Ab Rashid, S., and Zakaria, N. A.
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LACTIC acid bacteria ,GABA ,LACTIC acid ,DATA extraction ,BIOACTIVE compounds - Abstract
In recent years, there has been rising interest in producing health-functional foods and beverages as people become more health-conscious. Amidst the interest, gammaaminobutyric acid (GABA), a key bioactive compound produced by lactic acid bacteria (LAB), is one of the most demanded compounds to be applied in the food industry due to its psychobiotic advantages. However, the limited number of studies focusing on specific areas of GABA application in the food industry complicates the general evaluation of its application. Hence, a systematic literature review was conducted to study the application of GABA in the food industry. Thirty-seven studies were chosen from PubMed, Web of Science (WoS), and Scopus for data extraction and review. The three themes being emphasised in the present review are (1) GABA-producing strains, (2) GABA biosynthesis, and (3) GABA health benefits. Through the present review, the general idea of how GABA is applied in the food industry is highlighted. This may provide a better overview of the current research direction on GABA. [ABSTRACT FROM AUTHOR]
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- 2024
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28. GABA promotes peroxisome proliferation in Triticum monococcum leaves.
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Şahin, Yunus, Nazarov, Taras, Ünlü, Ercan Selçuk, Smertenko, Andrei, and Zencrici, Nusret
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METABOLISM ,ALDEHYDE dehydrogenase ,SECONDARY metabolism ,REACTIVE oxygen species ,RICE - Abstract
Although peroxisomes are integral for both primary and secondary metabolism, how developmental changes affect activity of peroxisomes remains poorly understood. Here, we used published RNA‐seq data to analyze the expression patterns of genes encoding 21 peroxisome metabolic pathways at successive developmental stages of Zea mays and Oryza sativa. Photorespiration was the most represented pathway in adult leaf relative to the juvenile stages. Components of reactive oxygen species (ROS)/reactive nitrogen species (RNS) metabolism, NADPH regeneration, and catabolism of polyamines were also enriched at later stages of leaf differentiation. The most commonly upregulated gene in differentiated leaves across all datasets of both species was BETAINE ALANINE DEHYDROGENASE (BADH). BADH functions in catabolism of polyamines where it converts 4‐aminobutyraldehyde (ABAL) to 4‐aminobutyrate (GABA). We tested the outcome of RNA‐seq analysis by qRT‐PCR in developing Triticum monococcum ssp. monococcum (Einkorn) seedlings. Consistent with the outcomes of RNA‐seq analysis, transcription of BADH and CATALASE3 (CAT3) were upregulated in older seedlings. CAT3 is an essential peroxisome biogenesis factor and a key enzyme of ROS homeostasis. Furthermore, exogenous application of GABA resulted in higher peroxisome abundance and transcriptional upregulation of BADH and a gene encoding another peroxisome biogenesis factor responsible for peroxisome fission, PEROXIN11C (PEX11C), in leaves. We propose that GABA contributes to regulation of peroxisome fission machinery during leaf differentiation. [ABSTRACT FROM AUTHOR]
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- 2024
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29. Gamma-Aminobutyric Acid (GABA) as a Defense Booster for Wheat against Leaf Rust Pathogen (Puccinia triticina).
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Khalil, Hala Badr, Lutfi, Abdullah Mohsen, Sayed, Ahmed Reyad, Mahmoud, Mohamed Tharwat, Mostafa, Salah Abdelfatah, Ibrahim, Zeyad Ahmed, Sharf-Eldin, Asmaa A., Abou-Zeid, Mohamed A., Ibrahim, Mohamed F. M., and Thabet, Marian
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LEAF rust of wheat ,GABA ,PUCCINIA triticina ,WHEAT rusts ,REACTIVE oxygen species ,RUST diseases - Abstract
Wheat leaf rust, caused by Puccinia triticina, poses a growing threat to global wheat production, necessitating alternative strategies for effective disease management. This study investigated the potential of gamma-aminobutyric acid (GABA) to enhance resistance to leaf rust in two wheat cultivars: the susceptible Morocco and moderately resistant Sakha 94 cultivar. Our findings revealed that GABA significantly improved resistance in both cultivars to P. triticina, particularly in Morocco, by mitigating disease severity and reducing pustule density and size while extending both incubation and latent periods. This study assessed the effectiveness of two GABA application methods: plants received 1 mM GABA treatment, as a foliar spray, twenty-four hours prior to infection (pre-GABA), and plants received 1 mM GABA treatment both 24 h before and after infection (pre-/post-GABA), with the latter yielding significantly better results in reducing infection severity and improving plant resilience. Additionally, GABA application influenced stomatal behavior, promoting closure that may enhance resilience against leaf rust. GABA application on plants also modulated the production of reactive oxygen species (ROS). This led to a stronger oxidative burst in both susceptible and moderately resistant cultivars. GABA increased O
2 ●− levels in guard cells and surrounding stomata, enhancing stomatal closure and the hypersensitive response. GABA enhanced the accumulation of soluble phenols and increased the activity of key antioxidant enzymes, catalase (CAT) and peroxidase (POX), which are vital for managing oxidative stress. To the best of our knowledge, this investigation represents the first report into the impact of GABA on wheat leaf rust disease. [ABSTRACT FROM AUTHOR]- Published
- 2024
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30. Effects of a ketogenic and low-fat diet on the human metabolome, microbiome, and foodome in adults at risk for Alzheimers disease.
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Dilmore, Amanda, Martino, Cameron, Neth, Bryan, West, Kiana, Zemlin, Jasmine, Rahman, Gibraan, Panitchpakdi, Morgan, Meehan, Michael, Weldon, Kelly, Blach, Colette, Schimmel, Leyla, Kaddurah-Daouk, Rima, Dorrestein, Pieter, Knight, Rob, and Craft, Suzanne
- Subjects
Alzheimers disease ,ketogenic diet ,low-fat American Heart Association Diet (AHAD) ,metabolome ,microbiome ,mild cognitive impairment ,United States ,Humans ,Adult ,Alzheimer Disease ,Diet ,Fat-Restricted ,Microbiota ,Metabolome ,Seizures ,Ketone Bodies ,gamma-Aminobutyric Acid - Abstract
INTRODUCTION: The ketogenic diet (KD) is an intriguing therapeutic candidate for Alzheimers disease (AD) given its protective effects against metabolic dysregulation and seizures. Gut microbiota are essential for KD-mediated neuroprotection against seizures as well as modulation of bile acids, which play a major role in cholesterol metabolism. These relationships motivated our analysis of gut microbiota and metabolites related to cognitive status following a controlled KD intervention compared with a low-fat-diet intervention. METHODS: Prediabetic adults, either with mild cognitive impairment (MCI) or cognitively normal (CN), were placed on either a low-fat American Heart Association diet or high-fat modified Mediterranean KD (MMKD) for 6 weeks; then, after a 6-week washout period, they crossed over to the alternate diet. We collected stool samples for shotgun metagenomics and untargeted metabolomics at five time points to investigate individuals microbiome and metabolome throughout the dietary interventions. RESULTS: Participants with MCI on the MMKD had lower levels of GABA-producing microbes Alistipes sp. CAG:514 and GABA, and higher levels of GABA-regulating microbes Akkermansia muciniphila. MCI individuals with curcumin in their diet had lower levels of bile salt hydrolase-containing microbes and an altered bile acid pool, suggesting reduced gut motility. DISCUSSION: Our results suggest that the MMKD may benefit adults with MCI through modulation of GABA levels and gut-transit time.
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- 2023
31. An ON-type direction-selective ganglion cell in primate retina.
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Wang, Anna, Kulkarni, Manoj, McLaughlin, Amanda, Gayet, Jacqueline, Smith, Benjamin, Hauptschein, Max, McHugh, Cyrus, Yao, Yvette, and Puthussery, Teresa
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Animals ,Humans ,Eye Movements ,Photic Stimulation ,Retina ,Retinal Ganglion Cells ,Motion ,Single-Cell Gene Expression Analysis ,Macaca ,gamma-Aminobutyric Acid ,Calcium Signaling ,Fixation ,Ocular - Abstract
To maintain a stable and clear image of the world, our eyes reflexively follow the direction in which a visual scene is moving. Such gaze-stabilization mechanisms reduce image blur as we move in the environment. In non-primate mammals, this behaviour is initiated by retinal output neurons called ON-type direction-selective ganglion cells (ON-DSGCs), which detect the direction of image motion and transmit signals to brainstem nuclei that drive compensatory eye movements1. However, ON-DSGCs have not yet been identified in the retina of primates, raising the possibility that this reflex is mediated by cortical visual areas. Here we mined single-cell RNA transcriptomic data from primate retina to identify a candidate ON-DSGC. We then combined two-photon calcium imaging, molecular identification and morphological analysis to reveal a population of ON-DSGCs in the macaque retina. The morphology, molecular signature and GABA (γ-aminobutyric acid)-dependent mechanisms that underlie direction selectivity in primate ON-DSGCs are highly conserved with those in other mammals. We further identify a candidate ON-DSGC in human retina. The presence of ON-DSGCs in primates highlights the need to examine the contribution of subcortical retinal mechanisms to normal and aberrant gaze stabilization in the developing and mature visual system.
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- 2023
32. Medium Formulation and Optimisation of Fermentation Condition Enhancing γ-aminobutyric Acid (GABA) Biosynthesis by Lactiplantibacillus plantarum B7
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Sangkaran Pannerchelvan, Fadzlie Wong Faizal Wong, Helmi Wasoh, Mohd Shamzi Mohamed, Rosfarizan Mohamad, and Murni Halim
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gamma-aminobutyric acid ,lactiplantibacillus plantarum ,medium formulation ,response surface methodology ,Microbiology ,QR1-502 - Abstract
Extensive studies on γ-aminobutyric acid (GABA) over decades highlight its significant physiological and pharmacological effects on humans. GABA produced using microbe is favoured compared to enzymatic and chemical methods due to operational ease and reduced harmful pollutant formation. This study focused on increasing γ-aminobutyric acid (GABA) biosynthesis from Lactiplantibacillus plantarum B7, employing a multi-step optimisation strategy. An unoptimised cultivation approach yielded a maximum GABA of 11.68 ± 0.04 g/L and viable cell count of 10.47 ± 0.01 log CFU/mL at 48 h. A nutrient-rich medium was developed through single-parameter optimisation, comprising 1%, 2.5% and 0.0002% of glucose, yeast extract and each trace element (CaCO3, KI, and Tween 80) respectively. Temperature, pH, incubation period, initial concentration of monosodium glutamate (MSG) and pyridoxal-5’-phosphate (PLP) demonstrated significant contributions towards GABA production and cell growth as determined using a two-level factorial design. Steepest ascent identified optimal conditions (36°C, pH 5.5, 370 mM MSG, and 0.7 mM PLP), resulting in 30.50 g/L GABA and 11.51 log CFU/mL at 60 h. Further refinement via a central composite experiment yielded optimal conditions (temperature-35.6°C, pH-5.66, initial MSG concentration-335.61 mM, PLP concentration-0.723 mM) with improved GABA production (32.18 g/L) and cell growth (11.52 log CFU/mL) over 63.66 h. Therefore, this approach utilising lactic acid bacteria capable of GABA synthesis holds promise for mass-produced, enhanced-functional foods.
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- 2024
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33. Gamma-aminobutyric acid and glutamate/glutamine levels in the dentate nucleus and periaqueductal gray in new daily persistent headache: a magnetic resonance spectroscopy study
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Tong Chen, Xiaoyan Bai, Wei Wang, Xue Zhang, Xun Pei, Xueyan Zhang, Ziyu Yuan, Yuanbin Zhao, Qi Yang, Yonggang Wang, and Binbin Sui
- Subjects
New daily persistent headache ,Magnetic resonance spectroscopy ,Gamma-aminobutyric acid ,Glutamate/glutamine ,Dentate nucleus ,Periaqueductal gray ,Medicine - Abstract
Abstract Background Magnetic resonance spectroscopy (MRS) studies have indicated that the imbalance between gamma-aminobutyric acid (GABA) and glutamate/glutamine (Glx) levels was the potential cause of migraine development. However, the changes in the GABA and Glx levels in patients with New daily persistent headache (NDPH) remain unclear. This study aimed to investigate the changes in GABA and Glx levels in the periaqueductal gray (PAG) and dentate nucleus (DN) in patients with NDPH using the MEGA-PRESS sequence. Methods Twenty-one NDPH patients and 22 age- and sex-matched healthy controls (HCs) were included and underwent a 3.0T MRI examination, using the MEGA-PRESS sequence to analyze GABA and Glx levels of PAG and DN. The correlations between these neurotransmitter levels and clinical characteristics were also analyzed. Results There were no significant differences in the GABA+/Water, GABA+/Cr, Glx/Water, and Glx/Cr levels in both PAG and DN between the two groups (all p > 0.05). Moderate-severe NDPH patients had lower levels of Glx/Water (p = 0.034) and Glx/Cr (p = 0.012) in DN than minimal-mild NDPH patients. In patients with NDPH, higher Glx/Water levels in the PAG (r=-0.471, p = 0.031, n = 21) and DN (r=-0.501, p = 0.021, n = 21) and higher Glx/Cr levels in DN (r=-0.483, p = 0.026, n = 21) were found to be correlated with lower Visual Analogue Scale scores. Additionally, a positive correlation was observed between the GABA+/Cr levels in the DN and the Generalized Anxiety Disorder-7 scores (r = 0.519, p = 0.039, n = 16). Conclusions The results of this study indicated that the GABA and Glx levels in the PAG and DN may not be the primary contributor to the development of NDPH. The correlations between certain clinical scales and the neurotransmitter levels may be derived from the NDPH related symptoms.
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- 2024
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34. Gamma-aminobutyric acid interactions with phytohormones and its role in modulating abiotic and biotic stress in plants
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Syed Nazar ul Islam, Shaista Kouser, Parveena Hassan, Mohd Asgher, Ali Asghar Shah, and Nafees A. Khan
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Abiotic Stress ,Biotic Stress ,Gamma-Aminobutyric Acid ,Phytohormones ,Biology (General) ,QH301-705.5 - Abstract
Abstract Gamma-aminobutyric acid (GABA), a ubiquitous non-protein 4-carbon amino acid present in both prokaryotic and eukaryotic organisms. It is conventionally recognized as a neurotransmitter in mammals and plays a crucial role in plants. The context of this review centers on the impact of GABA in mitigating abiotic stresses induced by climate change, such as drought, salinity, heat, and heavy metal exposure. Beyond its neurotransmitter role, GABA emerges as a key player in diverse metabolic processes, safeguarding plants against multifaceted abiotic as well as biotic challenges. This comprehensive exploration delves into the GABA biosynthetic pathway, its transport mechanisms, and its intricate interplay with various abiotic stresses. The discussion extends to the nuanced relationship between GABA and phytohormones during abiotic stress acclimation, offering insights into the strategic development of mitigation strategies against these stresses. The delineation of GABA's crosstalk with phytohormones underscores its pivotal role in formulating crucial strategies for abiotic stress alleviation in plants.
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- 2024
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35. Enhanced production of gamma‐aminobutyric acid in fermented carrot juice by utilizing pectin hydrolysate derived from pomegranate waste.
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Devecioglu, Dilara, Kara, Didem, Tapan, Rabia, Karbancioglu‐Guler, Funda, and Kahveci, Derya
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MALIC acid , *FERMENTED beverages , *FUNCTIONAL beverages , *FOOD waste , *LACTIC acid , *PECTINS - Abstract
In this study, a functional fermented beverage enriched with gamma‐aminobutyric acid (GABA) was produced. To achieve this, the prebiotic abilities of pectin obtained from pomegranate peel and its enzymatic hydrolysates were evaluated. Additionally, a functional fermented beverage enriched with GABA was produced by fermenting carrot juice with pectin hydrolysates. First, pectin was obtained at a yield of 8.91% from pomegranate peels. Pectinase‐catalyzed hydrolysis of the obtained pectin was applied using different enzyme concentrations and hydrolysis times, and the effect of these hydrolysates on the growth of Levilactobacillus brevis was determined. Although the Fourier transform infrared (FT‐IR) spectra of the resulting hydrolysates were similar, their degree of esterification compared to that of pectin was statistically different (p <.05). Considering the viability analysis and GABA production of L. brevis in the liquid medium supplemented with pectin or its hydrolysate, the hydrolysate obtained by treatment with 400 μL enzyme for 2 h and having a high glucose content (216.80 mg/100 g) was selected for application in fermented carrot juice. During fermentation (24, 48, and 72 h), a remarkable change was observed, especially in the amounts of lactic acid and malic acid, while the amount of GABA in carrot juice varied between 25 and 46 mg/mL and increased with the increase in hydrolysate concentration. It was observed that the total phenolic content and antioxidant activity of carrot juice were highly affected by the hydrolysate concentration. This study demonstrated that pectin hydrolysate obtained from food waste could be a potential prebiotic and could be used in the production of a functional beverage with improved GABA content. [ABSTRACT FROM AUTHOR]
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- 2024
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36. Gamma-aminobutyric acid induction of triticale protective systems under drought, salt stress or a combination of the two.
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KOLUPAEV, YURIY, SHAKHOV, IVAN V., KOKOREV, ALEXANDER I., RELINA, LIANA I., DYACHENKO, ALLA I., and DMITRIEV, ALEXANDER P.
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GABA , *GABA agents , *PHENOLS , *GUAIACOL , *TRITICALE - Abstract
Gamma-aminobutyric acid (GABA) is considered an important stress metabolite with regulatory functions in plants. Exogenous GABA can enhance the tolerance of different plant species to drought and salt stress. However, its effects on the functioning of stress-protective systems in triticale, an intergeneric wheat-rye hybrid with specific adaptation strategies to abiotic stresses, remain completely understudied. We examined the effects of exogenous GABA (0.5 mM) on the growth, antioxidant, and osmoprotective systems of triticale seedlings (cv. 'Rarytet') under simulated drought (15% PEG 6000), salt stress (100 mM NaCl), or a combination of these two factors. GABA mitigated the growth-inhibitory effects of drought by approximately 15% and salt stress by approximately 23%. However, GABA's most noticeable impact was seen on biomass accumulation under combined stress: it decreased the biomass accumulation inhibition caused by a drought-salt stress combination by 67%; GABA also increased the water content in seedling tissues when subjected to each stressor separately and to the combination of the two. GABA considerably reduced drought- and salt-triggered enhancement of ROS generation and lipid peroxidation. GABA increased the activities of antioxidant enzymes, such as superoxide dismutase, catalase, and guaiacol peroxidase, under physiologically normal conditions under the influence of PEG 6000 or NaCl. Subjected to a drought-salt stress combination, GABA prevented a reduction in the activities of these enzymes. Under normal and stressful conditions, exogenous GABA also modulated the contents of proline, sugars, phenolic compounds, and anthocyanins in the seedlings. We concluded that the stress-protective systems of triticale were highly susceptible to GABA and that it was possible to use GABA to enhance the tolerance of this species to osmotic stresses, especially under a combined impact of drought and salinity. [ABSTRACT FROM AUTHOR]
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- 2024
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37. Astrocytes facilitate gabazine‐evoked electrophysiological hyperactivity and distinct biochemical responses in mature neuronal cultures.
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Ahtiainen, Annika, Genocchi, Barbara, Subramaniyam, Narayan Puthanmadam, Tanskanen, Jarno M. A., Rantamäki, Tomi, and Hyttinen, Jari A. K.
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VASCULAR endothelial growth factors , *GABA antagonists , *GABA receptors , *PROTEIN kinases , *ASTROCYTES - Abstract
Gamma‐aminobutyric acid (GABA) is the principal inhibitory neurotransmitter in the adult brain that binds to GABA receptors and hyperpolarizes the postsynaptic neuron. Gabazine acts as a competitive antagonist to type A GABA receptors (GABAAR), thereby causing diminished neuronal hyperpolarization and GABAAR‐mediated inhibition. However, the biochemical effects and the potential regulatory role of astrocytes in this process remain poorly understood. To address this, we investigated the neuronal responses of gabazine in rat cortical cultures containing varying ratios of neurons and astrocytes. Electrophysiological characterization was performed utilizing microelectrode arrays (MEAs) with topologically controlled microcircuit cultures that enabled control of neuronal network growth. Biochemical analysis of the cultures was performed using traditional dissociated cultures on coverslips. Our study indicates that, upon gabazine stimulation, astrocyte‐rich neuronal cultures exhibit elevated electrophysiological activity and tyrosine phosphorylation of tropomyosin receptor kinase B (TrkB; receptor for brain‐derived neurotrophic factor), along with distinct cytokine secretion profiles. Notably, neurons lacking proper astrocytic support were found to experience synapse loss and decreased mitogen‐activated protein kinase (MAPK) phosphorylation. Furthermore, astrocytes contributed to neuronal viability, morphology, vascular endothelial growth factor (VEGF) secretion, and overall neuronal network functionality, highlighting the multifunctional role of astrocytes. [ABSTRACT FROM AUTHOR]
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- 2024
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38. Medium Formulation and Optimisation of Fermentation Condition Enhancing γ-aminobutyric Acid (GABA) Biosynthesis by Lactiplantibacillus plantarum B7.
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Pannerchelvan, Sangkaran, Faizal Wong, Fadzlie Wong, Wasoh, Helmi, Mohamed, Mohd Shamzi, Mohamad, Rosfarizan, and Halim, Murni
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MONOSODIUM glutamate , *RESPONSE surfaces (Statistics) , *LACTIC acid bacteria , *GABA , *YEAST extract - Abstract
Extensive studies on γ-aminobutyric acid (GABA) over decades highlight its significant physiological and pharmacological effects on humans. GABA produced using microbe is favoured compared to enzymatic and chemical methods due to operational ease and reduced harmful pollutant formation. This study focused on increasing γ-aminobutyric acid (GABA) biosynthesis from Lactiplantibacillus plantarum B7, employing a multi-step optimisation strategy. An unoptimised cultivation approach yielded a maximum GABA of 11.68 ± 0.04 g/L and viable cell count of 10.47 ± 0.01 log CFU/mL at 48 h. A nutrient-rich medium was developed through single-parameter optimisation, comprising 1%, 2.5% and 0.0002% of glucose, yeast extract and each trace element (CaCO3, KI, and Tween 80) respectively. Temperature, pH, incubation period, initial concentration of monosodium glutamate (MSG) and pyridoxal-5'-phosphate (PLP) demonstrated significant contributions towards GABA production and cell growth as determined using a two-level factorial design. Steepest ascent identified optimal conditions (36°C, pH 5.5, 370 mM MSG, and 0.7 mM PLP), resulting in 30.50 g/L GABA and 11.51 log CFU/mL at 60 h. Further refinement via a central composite experiment yielded optimal conditions (temperature-35.6°C, pH-5.66, initial MSG concentration-335.61 mM, PLP concentration-0.723 mM) with improved GABA production (32.18 g/L) and cell growth (11.52 log CFU/mL) over 63.66 h. Therefore, this approach utilising lactic acid bacteria capable of GABA synthesis holds promise for mass-produced, enhanced-functional foods. [ABSTRACT FROM AUTHOR]
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- 2024
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39. Different development patterns of reward behaviors induced by ketamine and JWH-018 in striatal GAD67 knockdown mice.
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Sun Mi Gu, Eunchong Hong, Sowoon Seo, Sanghyeon Kim, Seong Shoon Yoon, Hye Jin Cha, and Jaesuk Yun
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REWARD (Psychology) ,GLUTAMATE decarboxylase ,GABA ,NEUROTRANSMITTER receptors ,METHYL aspartate receptors ,KETAMINE ,CANNABINOID receptors - Abstract
Importance: Glutamic acid decarboxylase 67 (GAD67) is a gamma-aminobutyric acid (GABA) synthesis enzyme associated with the function of other neurotransmitter receptors, such as the N-methyl-D-aspartate (NMDA) receptor and cannabinoid receptor 1. However, the role of GAD67 in the development of different abused drug-induced reward behaviors remains unknown. In order to elucidate the mechanisms of substance use disorder, it is crucial to study changes in biomarkers within the brain's reward circuit induced by drug use. Objective: The study was designed to examine the effects of the downregulation of GAD67 expression in the dorsal striatum on reward behavior development. Methods: We evaluated the effects of GAD67 knockdown on depression-like behavior and anxiety using the forced swim test and elevated plus maze test in a mouse model. We further determined the effects of GAD67 knockdown on ketamine- and JWH-018-induced conditioned place preference (CPP). Results: Knockdown of GAD67 in the dorsal striatum of mice increased depression-like behavior, but it decreased anxiety. Moreover, the CPP score on the NMDA receptor antagonist ketamine was increased by GAD67 knockdown, whereas the administration of JWH-018, a cannabinoid receptor agonist, did not affect the CPP score in the GAD67 knockdown mice group compared with the control group. Conclusions and Relevance: These results suggest that striatal GAD67 reduces GABAergic neuronal activity and may cause ketamine-induced NMDA receptor inhibition. Consequently, GAD67 downregulation induces vulnerability to the drug reward behavior of ketamine. [ABSTRACT FROM AUTHOR]
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- 2024
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40. Gamma-aminobutyric acid and glutamate/glutamine levels in the dentate nucleus and periaqueductal gray in new daily persistent headache: a magnetic resonance spectroscopy study.
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Chen, Tong, Bai, Xiaoyan, Wang, Wei, Zhang, Xue, Pei, Xun, Zhang, Xueyan, Yuan, Ziyu, Zhao, Yuanbin, Yang, Qi, Wang, Yonggang, and Sui, Binbin
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STATISTICAL correlation , *PEARSON correlation (Statistics) , *GLUTAMINE , *NUCLEAR magnetic resonance spectroscopy , *T-test (Statistics) , *DATA analysis , *RESEARCH funding , *HEADACHE , *VISUAL analog scale , *QUESTIONNAIRES , *SAMPLE size (Statistics) , *CHI-squared test , *MANN Whitney U Test , *DESCRIPTIVE statistics , *AMINOBUTYRIC acid , *GLUTAMIC acid , *LONGITUDINAL method , *BRAIN stem , *RESEARCH , *STATISTICS , *CEREBELLUM , *DIGITAL image processing - Abstract
Background: Magnetic resonance spectroscopy (MRS) studies have indicated that the imbalance between gamma-aminobutyric acid (GABA) and glutamate/glutamine (Glx) levels was the potential cause of migraine development. However, the changes in the GABA and Glx levels in patients with New daily persistent headache (NDPH) remain unclear. This study aimed to investigate the changes in GABA and Glx levels in the periaqueductal gray (PAG) and dentate nucleus (DN) in patients with NDPH using the MEGA-PRESS sequence. Methods: Twenty-one NDPH patients and 22 age- and sex-matched healthy controls (HCs) were included and underwent a 3.0T MRI examination, using the MEGA-PRESS sequence to analyze GABA and Glx levels of PAG and DN. The correlations between these neurotransmitter levels and clinical characteristics were also analyzed. Results: There were no significant differences in the GABA+/Water, GABA+/Cr, Glx/Water, and Glx/Cr levels in both PAG and DN between the two groups (all p > 0.05). Moderate-severe NDPH patients had lower levels of Glx/Water (p = 0.034) and Glx/Cr (p = 0.012) in DN than minimal-mild NDPH patients. In patients with NDPH, higher Glx/Water levels in the PAG (r=-0.471, p = 0.031, n = 21) and DN (r=-0.501, p = 0.021, n = 21) and higher Glx/Cr levels in DN (r=-0.483, p = 0.026, n = 21) were found to be correlated with lower Visual Analogue Scale scores. Additionally, a positive correlation was observed between the GABA+/Cr levels in the DN and the Generalized Anxiety Disorder-7 scores (r = 0.519, p = 0.039, n = 16). Conclusions: The results of this study indicated that the GABA and Glx levels in the PAG and DN may not be the primary contributor to the development of NDPH. The correlations between certain clinical scales and the neurotransmitter levels may be derived from the NDPH related symptoms. [ABSTRACT FROM AUTHOR]
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- 2024
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41. Gamma-aminobutyric acid interactions with phytohormones and its role in modulating abiotic and biotic stress in plants.
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Islam, Syed Nazar ul, Kouser, Shaista, Hassan, Parveena, Asgher, Mohd, Shah, Ali Asghar, and Khan, Nafees A.
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GABA ,ABIOTIC stress ,AMINO acids ,PLANT hormones ,HEAVY metals - Abstract
Gamma-aminobutyric acid (GABA), a ubiquitous non-protein 4-carbon amino acid present in both prokaryotic and eukaryotic organisms. It is conventionally recognized as a neurotransmitter in mammals and plays a crucial role in plants. The context of this review centers on the impact of GABA in mitigating abiotic stresses induced by climate change, such as drought, salinity, heat, and heavy metal exposure. Beyond its neurotransmitter role, GABA emerges as a key player in diverse metabolic processes, safeguarding plants against multifaceted abiotic as well as biotic challenges. This comprehensive exploration delves into the GABA biosynthetic pathway, its transport mechanisms, and its intricate interplay with various abiotic stresses. The discussion extends to the nuanced relationship between GABA and phytohormones during abiotic stress acclimation, offering insights into the strategic development of mitigation strategies against these stresses. The delineation of GABA's crosstalk with phytohormones underscores its pivotal role in formulating crucial strategies for abiotic stress alleviation in plants. [ABSTRACT FROM AUTHOR]
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- 2024
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42. Interplay between microbial‐derived GABA and host GABA receptor signaling collectively influence the tumorigenic function of GABA in colon cancer.
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Keane, Jonathan M., Fernandes, Philana, Kratz, Florian, O'Callaghan, Grace, Gahan, Cormac G. M., Joyce, Susan A., Stanton, Catherine, Hyland, Niall P., and Houston, Aileen
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COLON cancer , *GABA receptors , *GABA , *GLUTAMATE decarboxylase , *GABA agents , *MICROBIAL metabolites - Abstract
Although classically recognized as a neurotransmitter, gamma aminobutyric acid (GABA) has also been identified in colonic tumors. Moreover, the gut microbiome represents another potential source of GABA. Both GABAA and GABAB receptors have been implicated in contributing to the effects of GABA in colorectal cancer, with both pro‐ and anti‐tumorigenic functions identified. However, their subunit composition is often overlooked. Studies to date have not addressed whether the GABA‐producing potential of the microbiome changes over the course of colon tumor development or whether receptor subunit expression patterns are altered in colon cancer. Therefore, we investigated the clusters of orthologous group frequencies of glutamate decarboxylase (GAD) in feces from two murine models of colon cancer and found that the frequency of microbial GAD was significantly decreased early in the tumorigenic process. We also determined that microbial‐derived GABA inhibited proliferation of colon cancer cells in vitro and that this effect of GABA on SW480 cells involved both GABAA and GABAB receptors. GABA also inhibited prostaglandin E2 (PGE2)‐induced proliferation and interleukin‐6 (IL‐6) expression in these cells. Gene expression correlations were assessed using the "Cancer Exploration" suite of the TIMER2.0 web tool and identified that GABA receptor subunits were differentially expressed in human colon cancer. Moreover, GABAA receptor subunits were predominantly positively associated with PGE2 synthase, cyclooxygenase‐2 and IL‐6. Collectively, these data demonstrate decreased potential of the microbiome to produce GABA during tumorigenesis, a novel anti‐tumorigenic pathway for GABA, and that GABA receptor subunit expression adds a further layer of complexity to GABAergic signaling in colon cancer. [ABSTRACT FROM AUTHOR]
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- 2024
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43. Glymphatic dysfunction coincides with lower GABA levels and sleep disturbances in succinic semialdehyde dehydrogenase deficiency.
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Tokatly Latzer, Itay, Yang, Edward, Afacan, Onur, Arning, Erland, Rotenberg, Alexander, Lee, Henry H. C., Roullet, Jean‐Baptiste, and Pearl, Phillip L.
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SLEEP interruptions , *SUCCINATE dehydrogenase , *GABA , *AQUAPORINS , *NUCLEAR magnetic resonance spectroscopy , *CLOCK genes - Abstract
Summary: Succinic semialdehyde dehydrogenase deficiency (SSADHD) is an inherited metabolic disorder of γ‐aminobutyrate (GABA) catabolism. Cerebral waste clearance along glymphatic perivascular spaces depends on aquaporin 4 (AQP4) water channels, the function of which was shown to be influenced by GABA. Sleep disturbances are associated independently with SSADHD and glymphatic dysfunction. This study aimed to determine whether indices of the hyperGABAergic state characteristic of SSADHD coincide with glymphatic dysfunction and sleep disturbances and to explicate the modulatory effect that GABA may have on the glymphatic system. The study included 42 individuals (21 with SSADHD; 21 healthy controls) who underwent brain MRIs and magnetic resonance spectroscopy (MRS) for assessment of glymphatic dysfunction and cortical GABA, plasma GABA measurements, and circadian clock gene expression. The SSADHD subjects responded to an additional Children's Sleep Habits Questionnaire (CSHQ). Compared with the control group, SSADHD subjects did not differ in sex and age but had a higher severity of enlarged perivascular spaces in the centrum semiovale (p < 0.001), basal ganglia (p = 0.01), and midbrain (p = 0.001), as well as a higher MRS‐derived GABA/NAA peak (p < 0.001). Within the SSADHD group, the severity of glymphatic dysfunction was specific for a lower MRS‐derived GABA/NAA (p = 0.04) and lower plasma GABA (p = 0.004). Additionally, the degree of their glymphatic dysfunction correlated with the CSHQ‐estimated sleep disturbances scores (R = 5.18, p = 0.03). In the control group, EPVS burden did not correlate with age or cerebral and plasma GABA values. The modulatory effect that GABA may exert on the glymphatic system has therapeutic implications for sleep‐related disorders and neurodegenerative conditions associated with glymphatic dysfunction. [ABSTRACT FROM AUTHOR]
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- 2024
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44. Contributions of Gamma-Aminobutyric Acid (GABA) Produced by Lactic Acid Bacteria on Food Quality and Human Health: Current Applications and Future Prospects.
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Icer, Mehmet Arif, Sarikaya, Buse, Kocyigit, Emine, Atabilen, Büşra, Çelik, Menşure Nur, Capasso, Raffaele, Ağagündüz, Duygu, and Budán, Ferenc
- Subjects
DRUG-food interactions ,SLEEP quality ,LACTIC acid bacteria ,GABA ,GLUTAMATE decarboxylase - Abstract
The need to increase food safety and improve human health has led to a worldwide increase in interest in gamma-aminobutyric acid (GABA), produced by lactic acid bacteria (LABs). GABA, produced from glutamic acid in a reaction catalyzed by glutamate decarboxylase (GAD), is a four-carbon, non-protein amino acid that is increasingly used in the food industry to improve the safety/quality of foods. In addition to the possible positive effects of GABA, called a postbiotic, on neuroprotection, improving sleep quality, alleviating depression and relieving pain, the various health benefits of GABA-enriched foods such as antidiabetic, antihypertension, and anti-inflammatory effects are also being investigated. For all these reasons, it is not surprising that efforts to identify LAB strains with a high GABA productivity and to increase GABA production from LABs through genetic engineering to increase GABA yield are accelerating. However, GABA's contributions to food safety/quality and human health have not yet been fully discussed in the literature. Therefore, this current review highlights the synthesis and food applications of GABA produced from LABs, discusses its health benefits such as, for example, alleviating drug withdrawal syndromes and regulating obesity and overeating. Still, other potential food and drug interactions (among others) remain unanswered questions to be elucidated in the future. Hence, this review paves the way toward further studies. [ABSTRACT FROM AUTHOR]
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- 2024
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45. Gamma-Aminobutyric Acid (GABA) Biosynthesis from Lactobacillus plantarum subsp. plantarum IBRC10817 Optimized and Modeled in Response to Heat and Ultrasonic Shock.
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Rezaei, Mahboobeh, Ghasemi, Younes, Sharifan, Anousheh, and Bakhoda, Hossein
- Abstract
Gamma-aminobutyric acid is one of the major inhibitory neurotransmitters in the nervous system. Although gamma-aminobutyric acid is commonly synthesized by chemical methods, its microbial biosynthesis is regarded as one of the best production methods among the conventional techniques. This study aimed to optimize and model the production of gamma-aminobutyric acid from Lactobacillus plantarum subsp. plantarum IBRC (10,817) under the influence of heat and ultrasonic shock using the response surface methodology. Heat and ultrasonic shock were applied in the lag phase of bacterial growth. Heat shock variables included heat treatment, monosodium glutamate concentration, and incubation time. Also, ultrasonic shock variables were ultrasonic intensity, ultrasonic time, incubation time, and monosodium glutamate concentration. By applying the 30.9 h of incubation, 3.082 g/L of monosodium glutamate, and thermal shock of 49.958 °C for 30 min, the production of 295.04 mg/L of gamma amino butyric acid was predicted. As for ultrasonic shock, using 3.28 (g/L) monosodium glutamate, 70 h of bacterial incubation, 7.7 min ultrasound shock, and ultrasound frequency of 26.58 kHz, the highest amount of metabolite production was anticipated to be 215.19 mg/L. Overall, it was found that the actual values were consistent with the predicted values. [ABSTRACT FROM AUTHOR]
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- 2024
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46. Gamma-aminobutyric acid treatment promotes resistance against Sogatella furcifera in rice.
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Jan, Rahmatullah, Asif, Saleem, Asaf, Sajjad, Lubna, Khan, Zakirullah, Khan, Waleed, and Kyung-Min Kim
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KREBS cycle ,GABA ,REACTIVE oxygen species ,ENZYME activation ,SALICYLIC acid ,GABA receptors ,STOMATA - Abstract
The Sogatella furcifera (Horva'th) (Homoptera: Delphacidae) is a white-backed planthopper (WBPH) that causes "hopper burn" in rice, resulting in severe yield loss. Gamma-aminobutyric acid (GABA) is a well-known neurotransmitter that inhibits neurotransmission in insects by binding to specific receptors. In this study, we investigated the potential role of GABA in modulating rice resistance to WBPH and evaluated possible defense mechanisms. The experiment was conducted in green house in pots consist of four groups: control, GABAtreated, WBPH-infested, and WBPH-infested treated with GABA. Among the various tested concentration of GABA, 15 mM GABA was applied as a single treatment in water. The treatment was administered one week before WBPH infestation. The results revealed that 15 mM GABA treatment strongly increased WBPH resistance. A plate-based assay indicated that direct application of 15 mM GABA increased the mortality rate of WBPH and increased the damage recovery rate in rice plants. We found that GABA treatment increased the activation of antioxidant enzymes and reduced the reactive oxygen species content and malondialdehyde contents, and reduced the damage rate caused by WBPH. Interestingly, GABA-supplemented plants infested with WBPH exhibited increased phenylalanine ammonia-lyase and pathogenesis-related (PR) genes expression levels. GABA induced the accumulation of abscisic acid (ABA) and salicylic acid (SA) and enhanced the stomata closure and reduced leaf vessels to reduce water conductance during WBPH stress. Furthermore, we found that GABA application to the plant induced the expression of Jasmonic acid (JA) biosynthesis genes (LOX, AOS, AOC, and OPR) and melatonin biosynthesisrelated genes (TDC, T5H, ASMT, and SNAT). Our study suggested that GABA increases resistance against WBPH infestation by regulating antioxidant defense system, TCA cycle regulation, phytohormonal signaling, and PR gene regulation. [ABSTRACT FROM AUTHOR]
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- 2024
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47. Human-Induced Pluripotent Stem Cell (iPSC)-Derived GABAergic Neuron Differentiation in Bipolar Disorder.
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Schill, Daniel J., Attili, Durga, DeLong, Cynthia J., McInnis, Melvin G., Johnson, Craig N., Murphy, Geoffrey G., and O'Shea, K. Sue
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INDUCED pluripotent stem cells , *GABAERGIC neurons , *PLURIPOTENT stem cells , *GABA , *STEM cells , *INTERNEURONS , *CHLORIDE channels - Abstract
Bipolar disorder (BP) is a recurring psychiatric condition characterized by alternating episodes of low energy (depressions) followed by manias (high energy). Cortical network activity produced by GABAergic interneurons may be critical in maintaining the balance in excitatory/inhibitory activity in the brain during development. Initially, GABAergic signaling is excitatory; with maturation, these cells undergo a functional switch that converts GABAA channels from depolarizing (excitatory) to hyperpolarizing (inhibitory), which is controlled by the intracellular concentration of two chloride transporters. The earliest, NKCC1, promotes chloride entry into the cell and depolarization, while the second (KCC2) stimulates movement of chloride from the neuron, hyperpolarizing it. Perturbations in the timing or expression of NKCC1/KCC2 may affect essential morphogenetic events including cell proliferation, migration, synaptogenesis and plasticity, and thereby the structure and function of the cortex. We derived induced pluripotent stem cells (iPSC) from BP patients and undiagnosed control (C) individuals, then modified a differentiation protocol to form GABAergic interneurons, harvesting cells at sequential stages of differentiation. qRT-PCR and RNA sequencing indicated that after six weeks of differentiation, controls transiently expressed high levels of NKCC1. Using multi-electrode array (MEA) analysis, we observed that BP neurons exhibit increased firing, network bursting and decreased synchrony compared to C. Understanding GABA signaling in differentiation may identify novel approaches and new targets for treatment of neuropsychiatric disorders such as BP. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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48. GABA 信号通路对脓毒症大鼠急性肺损伤内质网应激和 线粒体自噬的影响.
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钟敏, 施震, 周劲松, and 李晋杰
- Abstract
Objective To investigate the effect of γ -aminobutyric acid (GABA) signaling pathway on endoplasmic reticulum (ER) stress and mitochondrial autophagy in septic rats with acute lung injury (ALI). Methods SD rats were randomly grouped into the control (CON) group, the model group, the GABA signaling pathway activator Baclofen group (the Baclofen group), the GABA signaling pathway inhibitor dicentrine group (the BIC group), with 6 rats in each group. The Baclofen group received intraperitoneal injection of 5 mg/kg Baclofen, and the BIC group received intraperitoneal injection of 1 mg/kg BIC, once a day, for two consecutive weeks. The CON group and the model group were injected with an equal amount of physiological saline via intraperitoneal injection. Enzyme linked immunosorbent assay was applied to detect serum levels of superoxide dismutase (SOD) and malondialdehyde (MDA) and levels of cytochrome C (Cyt.C) and Nicotinamide adenine dinucleotide phosphate (NADPH) in bronchoalveolar lavage fluid (BALF). Transmission electron microscopy (TEM) was applied to observe the ultrastructure of lung tissue cells. HE staining was applied to observe the pathological morphology of lung tissue. TUNEL staining was applied to observe the apoptosis of lung tissue. Western blot assay was applied to detect expression levels of GABAAR, GRP78 and CHOP proteins in lung tissue. Results Compared with the model group, the lung swelling, congestion and inflammatory cell infiltration were improved in the Baclofen group, and the lung injury score, MDA content, apoptosis index, Cyt.C and NADPH levels, GRP78, and CHOP protein levels were reduced (P<0.05). The number of autophagic vacuoles in phagocytic mitochondria, SOD content and GABAAR protein level were increased (P< 0.05), however, the trend of above indicators in the BIC group was opposite to that in the Baclofen group. Conclusion Upregulation of GABA signaling pathway may have an improvement effect on ALI in sepsis rats. [ABSTRACT FROM AUTHOR]
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- 2024
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49. GABA Supplementation, Increased Heart-Rate Variability, Emotional Response, Sleep Efficiency and Reduced Depression in Sedentary Overweight Women Undergoing Physical Exercise: Placebo-Controlled, Randomized Clinical Trial.
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Guimarães, Aparecida Patricia, Seidel, Helen, Pires, Larissa Vitalina de Medeiros, Trindade, Cristina Oliveira, Baleeiro, Raianne dos Santos, Souza, Perciliany Martins de, Silva, Fernanda Guimarães Drummond e, Coelho, Daniel Barbosa, Becker, Lenice Kappes, and Oliveira, Emerson Cruz de
- Subjects
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AUTONOMIC nervous system physiology , *OBESITY treatment , *PREVENTION of mental depression , *EMOTION regulation , *WOMEN , *RESEARCH funding , *EXERCISE therapy , *SEDENTARY lifestyles , *STATISTICAL sampling , *BLIND experiment , *RANDOMIZED controlled trials , *DESCRIPTIVE statistics , *HEART beat , *SLEEP quality , *GABA , *DIETARY supplements , *NEUROTRANSMITTERS - Abstract
Gamma-aminobutyric acid (GABA) serves as a pivotal neurotransmitter implicated in the pathogenesis of stress, anxiety, sleep-related disorders, and heart rate (HR) reactions. Heart-rate variability (HRV), modulated by the sympathetic and parasympathetic branches of the autonomic nervous system (ANS), offers insights into cardiac autonomic control and cardiovascular well-being. The present study aimed to explore the impact of GABA supplementation on emotional metrics, sleep quality, and HRV in sedentary women with overweight or obesity partaking in physical exercise. A randomized, double-blind, placebo-controlled clinical trial was undertaken involving 30 sedentary women with overweight or obesity. Volunteers were assigned randomly to two groups: the intervention group receiving GABA (200 mg) once daily for a total of 90 supplementation doses, and the placebo group. Both groups engaged in physical exercise, while the supplementation regimen spanned 90 days. Assessments were conducted at three intervals: baseline (T0), midway through the study (T45), and study culmination (T90). Following 90 days of GABA supplementation, the intervention group demonstrated enhancements in habitual sleep efficiency, as indicated by reductions in Pittsburgh Sleep Quality Index (PSQI) scores. Moreover, an improved emotional response was observed, characterized by diminished negative affect. GABA supplementation yielded ameliorations in depression scores as per the Depression, Anxiety, and Stress Scale (DASS-21). Notably, an augmented HRV was noted, attributed to heightened parasympathetic autonomic nervous system predominance. GABA supplementation elicited noteworthy enhancements in heart rate variability, emotional response, depression mitigation, and sleep efficiency following a 90-day supplementation. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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50. Axon Initial Segment GABA Inhibits Action Potential Generation throughout Periadolescent Development
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Lipkin, Anna M and Bender, Kevin J
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Biomedical and Clinical Sciences ,Neurosciences ,1.1 Normal biological development and functioning ,Neurological ,Animals ,Mice ,Axon Initial Segment ,Action Potentials ,Chlorides ,GABAergic Neurons ,Receptors ,GABA-A ,gamma-Aminobutyric Acid ,adolescent ,axon initial segment ,chandelier ,GABA ,prefrontal pyramidal ,Medical and Health Sciences ,Psychology and Cognitive Sciences ,Neurology & Neurosurgery - Abstract
Neurons are remarkably polarized structures: dendrites spread and branch to receive synaptic inputs while a single axon extends and transmits action potentials (APs) to downstream targets. Neuronal polarity is maintained by the axon initial segment (AIS), a region between the soma and axon proper that is also the site of action potential (AP) generation. This polarization between dendrites and axons extends to inhibitory neurotransmission. In adulthood, the neurotransmitter GABA hyperpolarizes dendrites but instead depolarizes axons. These differences in function collide at the AIS. Multiple studies have shown that GABAergic signaling in this region can share properties of either the mature axon or mature dendrite, and that these properties evolve over a protracted period encompassing periadolescent development. Here, we explored how developmental changes in GABAergic signaling affect AP initiation. We show that GABA at the axon initial segment inhibits action potential initiation in layer (L)2/3 pyramidal neurons in prefrontal cortex from mice of either sex across GABA reversal potentials observed in periadolescence. These actions occur largely through current shunts generated by GABAA receptors and changes in voltage-gated channel properties that affected the number of channels that could be recruited for AP electrogenesis. These results suggest that GABAergic neurons targeting the axon initial segment provide an inhibitory "veto" across the range of GABA polarity observed in normal adolescent development, regardless of GABAergic synapse reversal potential.Significance Statement GABA receptors are a major class of neurotransmitter receptors in the brain. Typically, GABA receptors inhibit neurons by allowing influx of negatively charged chloride ions into the cell. However, there are cases where local chloride concentrations promote chloride efflux through GABA receptors. Such conditions exist early in development in neocortical pyramidal cell axon initial segments (AISs), where action potentials (APs) initiate. Here, we examined how chloride efflux in early development interacts with mechanisms that support action potential initiation. We find that this efflux, despite moving membrane potential closer to action potential threshold, is nevertheless inhibitory. Thus, GABA at the axon initial segment is likely to be inhibitory for action potential initiation independent of whether chloride flows out or into neurons via these receptors.
- Published
- 2023
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