Details for anatomical structure: frontal lobe

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Hormones
Receptors
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EndoNet ID: ENC00275

To link to the content of EndoNet use the EndoNet ID that is given on the detail pages in the format ENX0000, where X is a place holder for the type of the component (e. g. R for receptor or C for anatomical structure).
As URL for the linking append this ID to the detail page for this type of component.
For an hormone that would be:

http://endonet.bioinf.med.uni-goettingen.de/hormone/ENH00000

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Synonyms

frontal lobe, ,

Links to other resources

Cytomer

cy0052363

Larger structures

Substructures

Secreted hormones

Hormone: apelin-13
Hormone: apelin-28
Hormone: apelin-31
Hormone: apelin-36
Hormone: L-aspartate
Influenced by:
- 5-ht-6R
  in frontal_lobe
  The stimulation of 5-HT6 receptor by the antagonist SB-271046 mediate a significant increase in extracellular aspartat concentration. [1]
Hormone: glutamate
Influenced by:
- 5-ht-6R
  in frontal_lobe
  The stimulation of the 5-HT6 receptor by the antagonist SB-271046 produce a significant increase in extracellular glutamate concentration. [1]

Receptors

Receptor: 5-hydroxytryptamine receptor 4
Influences:
- acetylcholine
  
  The stimulation of 5-HT4 receptors increase the cortical ACh release in the frontal cortex. [2]
  Stimualted 5-HT4 receptors increase the extracellular concentration of ACh in the frontal cortex. [3]
Receptor: GPR7
Receptor: Lysophosphatidic acid receptor 3
Receptor: dopamine receptor D4
Receptor: 5-HT3 receptor
Influences:
- acetylcholine
  
  Acitvated 5-HT-3 receptors decreases the potassium-evoked release of acetycholine in slices of the central cortex. [4]
- cholecystokinin
  
  5-HT mediated activation of 5-HT-3 receptors enhance the release of cholecystokinin in synaptosomes of the rat nucleus accumbens and cerebral cortex. [5]
Receptor: 5-ht-6R
Influences:
- glutamate
  
  The stimulation of the 5-HT6 receptor by the antagonist SB-271046 produce a significant increase in extracellular glutamate concentration. [1]
- L-aspartate
  
  The stimulation of 5-HT6 receptor by the antagonist SB-271046 mediate a significant increase in extracellular aspartat concentration. [1]
- acetylcholine
  
  The stimulation of 5-HT6 receptors mediate an inhibitory serotoninergic effect to the ACh release in the frontal cortex. [6]
  Constitutively activated 5-HT6 receptors inhibite cholinergic neurotransmission. [7]
Receptor: 5-HT-2A
Influences:
- acetylcholine
  
  Acitvation of the 5-HT2 receptors stimulate the release of ACh in the prefontal cortex. [8]
Receptor: 5-HT-2B
Influences:
- acetylcholine
  
  Acitvation of the 5-HT2 receptors stimulate the release of ACh in the prefontal cortex. [8]
Receptor: 5-HT-2C
Influences:
- acetylcholine
  
  Acitvation of the 5-HT2 receptors stimulate the release of ACh in the prefontal cortex. [8]

Reference

EndoNet

The information resource about the endocrine network in human.

Details for anatomical structure: frontal lobe

Synonyms

Links to other resources

Related structures

Larger structures

Substructures

Secreted hormones

Hormone: apelin-13 ui-buttonPrimeFaces.cw('CommandButton','widget_j_idt91_0_toolsBtn',{id:'j_idt91:0:toolsBtn'}); $(function(){PrimeFaces.cw('OverlayPanel','widget_j_idt91_0_j_idt99',{id:'j_idt91:0:j_idt99',target:'j_idt91:0:toolsBtn',dynamic:true});});

Hormone: apelin-28 ui-buttonPrimeFaces.cw('CommandButton','widget_j_idt91_1_toolsBtn',{id:'j_idt91:1:toolsBtn'}); $(function(){PrimeFaces.cw('OverlayPanel','widget_j_idt91_1_j_idt99',{id:'j_idt91:1:j_idt99',target:'j_idt91:1:toolsBtn',dynamic:true});});

Hormone: apelin-31 ui-buttonPrimeFaces.cw('CommandButton','widget_j_idt91_2_toolsBtn',{id:'j_idt91:2:toolsBtn'}); $(function(){PrimeFaces.cw('OverlayPanel','widget_j_idt91_2_j_idt99',{id:'j_idt91:2:j_idt99',target:'j_idt91:2:toolsBtn',dynamic:true});});

Hormone: apelin-36 ui-buttonPrimeFaces.cw('CommandButton','widget_j_idt91_3_toolsBtn',{id:'j_idt91:3:toolsBtn'}); $(function(){PrimeFaces.cw('OverlayPanel','widget_j_idt91_3_j_idt99',{id:'j_idt91:3:j_idt99',target:'j_idt91:3:toolsBtn',dynamic:true});});

Hormone: L-aspartate ui-buttonPrimeFaces.cw('CommandButton','widget_j_idt91_4_toolsBtn',{id:'j_idt91:4:toolsBtn'}); $(function(){PrimeFaces.cw('OverlayPanel','widget_j_idt91_4_j_idt99',{id:'j_idt91:4:j_idt99',target:'j_idt91:4:toolsBtn',dynamic:true});});

Influenced by:

Hormone: glutamate ui-buttonPrimeFaces.cw('CommandButton','widget_j_idt91_5_toolsBtn',{id:'j_idt91:5:toolsBtn'}); $(function(){PrimeFaces.cw('OverlayPanel','widget_j_idt91_5_j_idt99',{id:'j_idt91:5:j_idt99',target:'j_idt91:5:toolsBtn',dynamic:true});});

Influenced by:

Receptors

Receptor: 5-hydroxytryptamine receptor 4 ui-buttonPrimeFaces.cw('CommandButton','widget_j_idt139_0_toolsBtn',{id:'j_idt139:0:toolsBtn'}); $(function(){PrimeFaces.cw('OverlayPanel','widget_j_idt139_0_j_idt145',{id:'j_idt139:0:j_idt145',target:'j_idt139:0:toolsBtn',dynamic:true});});

Influences:

Receptor: GPR7 ui-buttonPrimeFaces.cw('CommandButton','widget_j_idt139_1_toolsBtn',{id:'j_idt139:1:toolsBtn'}); $(function(){PrimeFaces.cw('OverlayPanel','widget_j_idt139_1_j_idt145',{id:'j_idt139:1:j_idt145',target:'j_idt139:1:toolsBtn',dynamic:true});});

Receptor: Lysophosphatidic acid receptor 3 ui-buttonPrimeFaces.cw('CommandButton','widget_j_idt139_2_toolsBtn',{id:'j_idt139:2:toolsBtn'}); $(function(){PrimeFaces.cw('OverlayPanel','widget_j_idt139_2_j_idt145',{id:'j_idt139:2:j_idt145',target:'j_idt139:2:toolsBtn',dynamic:true});});

Receptor: dopamine receptor D4 ui-buttonPrimeFaces.cw('CommandButton','widget_j_idt139_3_toolsBtn',{id:'j_idt139:3:toolsBtn'}); $(function(){PrimeFaces.cw('OverlayPanel','widget_j_idt139_3_j_idt145',{id:'j_idt139:3:j_idt145',target:'j_idt139:3:toolsBtn',dynamic:true});});

Receptor: 5-HT3 receptor ui-buttonPrimeFaces.cw('CommandButton','widget_j_idt139_4_toolsBtn',{id:'j_idt139:4:toolsBtn'}); $(function(){PrimeFaces.cw('OverlayPanel','widget_j_idt139_4_j_idt145',{id:'j_idt139:4:j_idt145',target:'j_idt139:4:toolsBtn',dynamic:true});});

Influences:

Receptor: 5-ht-6R ui-buttonPrimeFaces.cw('CommandButton','widget_j_idt139_5_toolsBtn',{id:'j_idt139:5:toolsBtn'}); $(function(){PrimeFaces.cw('OverlayPanel','widget_j_idt139_5_j_idt145',{id:'j_idt139:5:j_idt145',target:'j_idt139:5:toolsBtn',dynamic:true});});

Influences:

Receptor: 5-HT-2A ui-buttonPrimeFaces.cw('CommandButton','widget_j_idt139_6_toolsBtn',{id:'j_idt139:6:toolsBtn'}); $(function(){PrimeFaces.cw('OverlayPanel','widget_j_idt139_6_j_idt145',{id:'j_idt139:6:j_idt145',target:'j_idt139:6:toolsBtn',dynamic:true});});

Influences:

Receptor: 5-HT-2B ui-buttonPrimeFaces.cw('CommandButton','widget_j_idt139_7_toolsBtn',{id:'j_idt139:7:toolsBtn'}); $(function(){PrimeFaces.cw('OverlayPanel','widget_j_idt139_7_j_idt145',{id:'j_idt139:7:j_idt145',target:'j_idt139:7:toolsBtn',dynamic:true});});

Influences:

Receptor: 5-HT-2C ui-buttonPrimeFaces.cw('CommandButton','widget_j_idt139_8_toolsBtn',{id:'j_idt139:8:toolsBtn'}); $(function(){PrimeFaces.cw('OverlayPanel','widget_j_idt139_8_j_idt145',{id:'j_idt139:8:j_idt145',target:'j_idt139:8:toolsBtn',dynamic:true});});

Influences:

Hormone: apelin-13

Hormone: apelin-28

Hormone: apelin-31

Hormone: apelin-36

Hormone: L-aspartate

Hormone: glutamate

Receptor: 5-hydroxytryptamine receptor 4

Receptor: GPR7

Receptor: Lysophosphatidic acid receptor 3

Receptor: dopamine receptor D4

Receptor: 5-HT3 receptor

Receptor: 5-ht-6R

Receptor: 5-HT-2A

Receptor: 5-HT-2B

Receptor: 5-HT-2C