Presentation is loading. Please wait.

Presentation is loading. Please wait.

Nat. Rev. Endocrinol. doi: /nrendo

Published byTyrone Austin Modified over 5 years ago

Similar presentations

Presentation on theme: "Nat. Rev. Endocrinol. doi: /nrendo"— Presentation transcript:

1 Nat. Rev. Endocrinol. doi:10.1038/nrendo.2017.124
Figure 4 Prostaglandin E2 as a gliotransmitter in the gonadotropin-releasing hormone (GnRH) system Figure 4 | Prostaglandin E2 as a gliotransmitter in the gonadotropin-releasing hormone (GnRH) system. In the GnRH system, two different mechanisms, each with different effects on GnRH neuronal activity, control the release of prostaglandin E2 (PGE2). In the first mechanism (left hand side of the figure), the synaptic release of glutamate from the glutamatergic terminal triggers the release of PGE2 by astrocytes via the activation of astrocytic AMPA receptors (AMPARs) and astrocytic metabotropic glutamate receptors (mGluRs)150. The activation of these receptors promotes the recruitment of growth factors, TGFα and neuregulin (NRG), along with their respective receptors, ERBB1 and ERBB4, to the cell membrane of astrocytes150. TGFα and NRG activate ERBB1/ERBB2 and ERBB4/ERBB2 heterodimers, respectively, thereby stimulating the synthesis and release of PGE2 (Ref. 150). In turn, PGE2 acts on PGE2 receptor (PTGER2) located on GnRH-secreting neurons, which leads to the activation of a non-selective cation channel (NSCC) through a cAMP/protein kinase A (PKA)-dependent pathway170. Cation influx through the NSCC induces membrane depolarization and increases firing of GnRH-secreting neurons170. In the second mechanism (right hand side of the figure), glutamate released from depolarized (ΔVm) GnRH-secreting neurons triggers the release of PGE2 from astrocytes159. Membrane depolarization of GnRH-secreting neurons (ΔVm) also induces the release of endocannabinoids159. Glutamate and endocannabinoids activate presynaptic mGluRs and cannabinoid receptor 1 (CB1), respectively, to inhibit the release of GABA, which acts on the postsynaptic GABAA receptor (GABAAR)159. Given that GABA is an excitatory neurotransmitter in the GnRH system, this provides a negative feedback loop in which depolarized GnRH-secreting neurons reduce their own activity by inhibiting the activity of excitatory GABAergic inputs. PGE2 released by astrocytes following activation of mGluR can then act postsynaptically and presynaptically to increase endocannabinoid synthesis and CB1 trafficking, respectively, potentiating this local inhibitory feedback circuit159. Clasadonte, J. & Prevot, V. (2017) The special relationship: glia–neuron interactions in the neuroendocrine hypothalamus Nat. Rev. Endocrinol. doi: /nrendo

Download ppt "Nat. Rev. Endocrinol. doi: /nrendo"

Similar presentations

Synaptic Cleft: Information Transfer

Synaptic Cleft: Information Transfer
Chemical synapses: post-synaptic mechanisms. Postsynaptic Membranes and ion channels Ligand gated ion channels – a review a. Resting K + channels: responsible.

Chemical synapses: post-synaptic mechanisms. Postsynaptic Membranes and ion channels Ligand gated ion channels – a review a. Resting K + channels: responsible.
Part Fundamentals of Physiology Part II Food, Energy, and Temperature Part III Integrating systems Part IV Movement and Muscle Part V Oxygen, Carbon dioxide,

Part Fundamentals of Physiology Part II Food, Energy, and Temperature Part III Integrating systems Part IV Movement and Muscle Part V Oxygen, Carbon dioxide,
Long term potentiation (LTP) of an excitatory synaptic inputs is input specific.

Long term potentiation (LTP) of an excitatory synaptic inputs is input specific.
Neural communication How do neurons send messages to each other?

Neural communication How do neurons send messages to each other?
The Integrate and Fire Model Gerstner & Kistler – Figure 4.1 RC circuit Threshold Spike.

The Integrate and Fire Model Gerstner & Kistler – Figure 4.1 RC circuit Threshold Spike.
Neural Plasticity Lecture 7. Neural Plasticity n Nervous System is malleable l learning occurs n Structural changes l increased dendritic branching l.

Neural Plasticity Lecture 7. Neural Plasticity n Nervous System is malleable l learning occurs n Structural changes l increased dendritic branching l.
Chapter 8c Neurons: Cellular and Network Properties.

Chapter 8c Neurons: Cellular and Network Properties.
Nervous System: Part III What Happens at a Synapse?

Nervous System: Part III What Happens at a Synapse?
Neural Plasticity: Long-term Potentiation Lesson 15.

Neural Plasticity: Long-term Potentiation Lesson 15.
Copyright © 2010 Pearson Education, Inc. Neurotransmitter Actions Direct action Neurotransmitter binds to channel-linked receptor and opens ion channels.

Copyright © 2010 Pearson Education, Inc. Neurotransmitter Actions Direct action Neurotransmitter binds to channel-linked receptor and opens ion channels.
Unit 1B: Nerve Impulses and Synapses. Nerve Impulse A neuron’s job is to transmit a message to a muscle, gland, or another neuron The message travels.

Unit 1B: Nerve Impulses and Synapses. Nerve Impulse A neuron’s job is to transmit a message to a muscle, gland, or another neuron The message travels.
The Action Potential & Impulse/Signal Propagation Learning Objective Be able to describe what a synapse is. Be able to describe how an action potential.

The Action Potential & Impulse/Signal Propagation Learning Objective Be able to describe what a synapse is. Be able to describe how an action potential.
SYNAPTIC & NEUROMUSCULAR TRANSMISSION Ass. Prof. Dr. Emre Hamurtekin EMU Faculty of Pharmacy.

SYNAPTIC & NEUROMUSCULAR TRANSMISSION Ass. Prof. Dr. Emre Hamurtekin EMU Faculty of Pharmacy.
Graduate Seminar, NJIT June 14, 2012 Analytical & Computational Neuroscience: Lecture 2 Action Potentials and Chemical Synapses Math 430 * Math 635 * Fall.

Graduate Seminar, NJIT June 14, 2012 Analytical & Computational Neuroscience: Lecture 2 Action Potentials and Chemical Synapses Math 430 * Math 635 * Fall.
Copyright © 2004 Pearson Education, Inc., publishing as Benjamin Cummings The Synapse Key Stage 5 Biology.

Copyright © 2004 Pearson Education, Inc., publishing as Benjamin Cummings The Synapse Key Stage 5 Biology.
Trends in Biomedical Science Making Memory. The following slides are mostly derived from The Brain from Top to Bottom, an Interactive Website about the.

Trends in Biomedical Science Making Memory. The following slides are mostly derived from The Brain from Top to Bottom, an Interactive Website about the.
Copyright © 2004 Pearson Education, Inc., publishing as Benjamin Cummings Action potential travels along an axon Information passes from presynaptic neuron.

Copyright © 2004 Pearson Education, Inc., publishing as Benjamin Cummings Action potential travels along an axon Information passes from presynaptic neuron.
Myelin again Myelin speeds up the nerve impulse because nerve fibers have Schwann cells around them – Schwann cells restrict ion movement – So impulse.

Myelin again Myelin speeds up the nerve impulse because nerve fibers have Schwann cells around them – Schwann cells restrict ion movement – So impulse.
Electrical signals Sodium ions Potassium ions Generate an action potential at the axon hillock Travels down the axon to the terminal – regenerating the.

Electrical signals Sodium ions Potassium ions Generate an action potential at the axon hillock Travels down the axon to the terminal – regenerating the.

Similar presentations

Ads by Google