Leptin Regulation of Synaptic Function at Hippocampal TA-CA1 and SC-CA1 Synapses: Implications for Health and Disease

McGregor, Gemma; Harvey, Jenni

doi:10.1007/s11064-017-2362-1

Cited by 29 publications

(24 citation statements)

References 109 publications

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“…40,58 Leptin stimulates the JAK2-PI3K pathway in both presynaptic GABAergic terminals and postsynaptic POMC neurons. 61,62 In contrast to these mechanisms, we found that the voltage-sensitive potassium channel is the target of leptin in OB neurons. 60 In the hippocampus, leptin rapidly enhances NMDAinduced increases in intracellular Ca 2+ levels and facilitates NMDA currents, but not AMPA currents; the underlying signaling mechanism involves activation of phosphoinositide 3-kinase, mitogen-activated protein kinase, and Src tyrosine kinases.…”

Section: Discussionmentioning

confidence: 64%

“…60 In the hippocampus, leptin rapidly enhances NMDAinduced increases in intracellular Ca 2+ levels and facilitates NMDA currents, but not AMPA currents; the underlying signaling mechanism involves activation of phosphoinositide 3-kinase, mitogen-activated protein kinase, and Src tyrosine kinases. 61,62 In contrast to these mechanisms, we found that the voltage-sensitive potassium channel is the target of leptin in OB neurons. This important finding provides new information about how leptin interacts with neurons in the brain.…”

Section: Discussionmentioning

confidence: 64%

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Leptin modulates olfactory discrimination and neural activity in the olfactory bulb

Sun

Ke-ke

et al. 2019

Acta Physiologica

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Aim Leptin is an important peptide hormone that regulates food intake and plays a crucial role in modulating olfactory function. Although a few previous studies have investigated the effect of leptin on odor perception and discrimination in rodents, research on the neural basis underlying the behavioral changes is lacking. Here we study how leptin affects behavioral performance during a go/no‐go task and how it modulates neural activity of mitral/tufted cells in the olfactory bulb, which plays an important role in odor information processing and representation. Methods A go/no‐go odor discrimination task was used in the behavioral test. For in vivo studies, single unit recordings, local field potential recordings and fiber photometry recordings were used. For in vitro studies, we performed patch clamp recordings in the slice of the olfactory bulb. Results Behaviorally, leptin affects performance and reaction time in a difficult odor‐discrimination task. Leptin decreases the spontaneous firing of single mitral/tufted cells, decreases the odor‐evoked beta and high gamma local field potential response, and has bidirectional effects on the odor‐evoked responses of single mitral/tufted cells. Leptin also inhibits the population calcium activity in genetically identified mitral/tufted cells and granule cells. Furthermore, in vitro slice recordings reveal that leptin inhibits mitral cell activity through direct modulation of the voltage‐sensitive potassium channel. Conclusions The behavioral reduction in odor discrimination observed after leptin administration is likely due to decreased neural activity in mitral/tufted cells, caused by modulation of potassium channels in these cells.

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Section: Discussionmentioning

confidence: 64%

Section: Discussionmentioning

confidence: 64%

Leptin modulates olfactory discrimination and neural activity in the olfactory bulb

Sun

Ke-ke

et al. 2019

Acta Physiologica

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“…]). Moreover, the levels of two adipose‐derived peptide hormones, leptin (the pleiotropic hormone of satiation signals/energy expenditure ) and resistin (the hormone that may ‘resist’ insulin actions ), were decreased to the same extent in F1 and F2 mice (Fig. ).…”

Section: Discussionmentioning

confidence: 96%

2D DIGE proteomic analysis reveals fasting‐induced protein remodeling through organ‐specific transcription factor(s) in mice

et al. 2018

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Overnight fasting is a routine procedure before surgery in clinical settings. Intermittent fasting is the most common diet/fitness trend implemented for weight loss and the treatment of lifestyle‐related diseases. In either setting, the effects not directly related to parameters of interest, either beneficial or harmful, are often ignored. We previously demonstrated differential activation of cellular adaptive responses in 13 atrophied/nonatrophied organs of fasted mice by quantitative PCR analysis of gene expression. Here, we investigated 2‐day fasting‐induced protein remodeling in six major mouse organs (liver, kidney, thymus, spleen, brain, and testis) using two‐dimensional difference gel electrophoresis (2D DIGE ) proteomics as an alternative means to examine systemic adaptive responses. Quantitative analysis of protein expression followed by protein identification using matrix‐assisted laser desorption ionization–time‐of‐flight mass spectrometry ( MALDI ‐ TOFMS ) revealed that the expression levels of 72, 26, and 14 proteins were significantly up‐ or downregulated in the highly atrophied liver, thymus, and spleen, respectively, and the expression levels of 32 proteins were up‐ or downregulated in the mildly atrophied kidney. Conversely, there were no significant protein expression changes in the nonatrophied organs, brain and testis. Upstream regulator analysis highlighted transcriptional regulation by peroxisome proliferator‐activated receptor alpha ( PPAR α) in the liver and kidney and by tumor protein/suppressor p53 ( TP 53) in the thymus, spleen, and liver. These results imply of the existence of both common and distinct adaptive responses between major mouse organs, which involve transcriptional regulation of specific protein expression upon short‐term fasting. Our data may be valuable in understanding systemic transcriptional regulation upon fasting in experimental animals.

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“…After NMDARmediated calcium influx to the cytoplasm, another glutamate receptor, α-amino-3-hydroxy-5-methyl-4isoxazolepropionic acid (AMPAR), is transported from the Golgi apparatus to the cell membrane (Moult et al 2010). The transport of AMPAR exemplifies the principle of activity-dependent synaptic plasticity; LTP is mediated by AMPAR insertion into the membrane, whereas removal of AMPAR from the membrane mediates LDP (Collingridge et al 2004, McGregor & Harvey 2017.…”

Section: Leptin As a Key Player In Food Intake Regulation: A Role In mentioning

confidence: 99%

The impact of anorexigenic peptides in experimental models of Alzheimer’s disease pathology

Maletı́nská

Popelová

Železná

et al. 2019

Journal of Endocrinology

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Alzheimer’s disease (AD) is the most prevalent neurodegenerative disorder in the elderly population. Numerous epidemiological and experimental studies have demonstrated that patients who suffer from obesity or type 2 diabetes mellitus have a higher risk of cognitive dysfunction and AD. Several recent studies demonstrated that food intake-lowering (anorexigenic) peptides have the potential to improve metabolic disorders and that they may also potentially be useful in the treatment of neurodegenerative diseases. In this review, the neuroprotective effects of anorexigenic peptides of both peripheral and central origins are discussed. Moreover, the role of leptin as a key modulator of energy homeostasis is discussed in relation to its interaction with anorexigenic peptides and their analogs in AD-like pathology. Although there is no perfect experimental model of human AD pathology, animal studies have already proven that anorexigenic peptides exhibit neuroprotective properties. This phenomenon is extremely important for the potential development of new drugs in view of the aging of the human population and of the significantly increasing incidence of AD.

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Leptin Regulation of Synaptic Function at Hippocampal TA-CA1 and SC-CA1 Synapses: Implications for Health and Disease

Cited by 29 publications

References 109 publications

Leptin modulates olfactory discrimination and neural activity in the olfactory bulb

Leptin modulates olfactory discrimination and neural activity in the olfactory bulb

2D DIGE proteomic analysis reveals fasting‐induced protein remodeling through organ‐specific transcription factor(s) in mice

The impact of anorexigenic peptides in experimental models of Alzheimer’s disease pathology

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