LipidPedia

Anandamide

Anandamide is a lipid of Fatty Acyls (FA) class. Anandamide is associated with abnormalities such as Dehydration. The involved functions are known as Process, Phenomenon, Phosphorylation, Catabolic Process and Gene Expression. Anandamide often locates in Nuchal region, Microglial and Hepatic. The associated genes with Anandamide are SGPL1 gene, SPTLC1 gene, RPSA gene, KDSR gene and SMPD1 gene. The related lipids are Sphingolipids, Lipopolysaccharides, Lysophospholipids, LYSO-PC and lysophosphatidylethanolamine.

Cross Reference

Introduction

To understand associated biological information of Anandamide, we collected biological information of abnormalities, associated pathways, cellular/molecular locations, biological functions, related genes/proteins, lipids and common seen animal/experimental models with organized paragraphs from literatures.

MeSH term	MeSH ID	Detail
Somatosensory Disorders	D020886	1 associated lipids
Orthostatic Intolerance	D054971	1 associated lipids
Sleep Disorders, Intrinsic	D020919	1 associated lipids
Headache Disorders, Secondary	D051271	1 associated lipids
Amnesia, Anterograde	D020324	2 associated lipids
Substance-Related Disorders	D019966	2 associated lipids
Ocular Hypotension	D015814	2 associated lipids
Vascular System Injuries	D057772	2 associated lipids
Schistosomiasis japonica	D012554	3 associated lipids
Bulimia	D002032	3 associated lipids
Acute Pain	D059787	3 associated lipids
Cardiovirus Infections	D018188	3 associated lipids
Fibromyalgia	D005356	4 associated lipids
Impotence, Vasculogenic	D018783	4 associated lipids
Urinary Bladder Diseases	D001745	4 associated lipids
Urinary Incontinence	D014549	4 associated lipids
Picornaviridae Infections	D010850	4 associated lipids
Intestinal Pseudo-Obstruction	D007418	5 associated lipids
Pregnancy, Ectopic	D011271	5 associated lipids
Muscle Spasticity	D009128	5 associated lipids
Brain Concussion	D001924	5 associated lipids
Sleep Deprivation	D012892	5 associated lipids
Brain Damage, Chronic	D001925	6 associated lipids
Cholangiocarcinoma	D018281	7 associated lipids
Anorexia	D000855	8 associated lipids
Morphine Dependence	D009021	9 associated lipids
Sleep Apnea, Obstructive	D020181	9 associated lipids
Alveolar Bone Loss	D016301	10 associated lipids
Learning Disorders	D007859	11 associated lipids
Overweight	D050177	11 associated lipids
Hyperkinesis	D006948	11 associated lipids
Hepatitis	D006505	11 associated lipids
Shock, Septic	D012772	11 associated lipids
Migraine Disorders	D008881	11 associated lipids
Hypertension, Portal	D006975	12 associated lipids
Neoplasms	D009369	13 associated lipids
Osteoarthritis, Knee	D020370	13 associated lipids
Sciatic Neuropathy	D020426	13 associated lipids
Bradycardia	D001919	13 associated lipids
Multiple Sclerosis	D009103	13 associated lipids
Cardiomyopathy, Dilated	D002311	15 associated lipids
Dyskinesia, Drug-Induced	D004409	15 associated lipids
Celiac Disease	D002446	16 associated lipids
Ventricular Fibrillation	D014693	16 associated lipids
Parkinson Disease, Secondary	D010302	17 associated lipids
Bronchial Spasm	D001986	18 associated lipids
Mycoses	D009181	18 associated lipids
Pancreatitis, Acute Necrotizing	D019283	18 associated lipids
Cough	D003371	19 associated lipids
Hypothermia	D007035	19 associated lipids
Peptic Ulcer	D010437	19 associated lipids
Brain Edema	D001929	20 associated lipids
Parkinsonian Disorders	D020734	20 associated lipids
Ataxia	D001259	20 associated lipids
Hypoxia-Ischemia, Brain	D020925	22 associated lipids
Neoplasm Invasiveness	D009361	23 associated lipids
Arthritis, Experimental	D001169	24 associated lipids
Breast Neoplasms	D001943	24 associated lipids
Hyperemia	D006940	25 associated lipids
Encephalomyelitis, Autoimmune, Experimental	D004681	26 associated lipids
Hyperinsulinism	D006946	27 associated lipids
Endotoxemia	D019446	27 associated lipids
Neuralgia	D009437	28 associated lipids
Obesity	D009765	29 associated lipids
Catalepsy	D002375	30 associated lipids
Neurodegenerative Diseases	D019636	32 associated lipids
Thyroid Neoplasms	D013964	33 associated lipids
Ventricular Dysfunction, Left	D018487	33 associated lipids
Memory Disorders	D008569	33 associated lipids
Peripheral Nervous System Diseases	D010523	33 associated lipids
Spinal Cord Injuries	D013119	34 associated lipids
Fever	D005334	35 associated lipids
Infarction, Middle Cerebral Artery	D020244	35 associated lipids
Epilepsy	D004827	35 associated lipids
Nervous System Diseases	D009422	37 associated lipids
Neovascularization, Pathologic	D009389	39 associated lipids
Diabetic Retinopathy	D003930	39 associated lipids
Hypotension	D007022	41 associated lipids
Ischemic Attack, Transient	D002546	42 associated lipids
Hyperalgesia	D006930	42 associated lipids
Hypersensitivity, Delayed	D006968	43 associated lipids
Fatty Liver	D005234	48 associated lipids
Nerve Degeneration	D009410	53 associated lipids
Pain	D010146	64 associated lipids
Reperfusion Injury	D015427	65 associated lipids
Neuroblastoma	D009447	66 associated lipids
Liver Cirrhosis	D008103	67 associated lipids
Colitis	D003092	69 associated lipids
Melanoma	D008545	69 associated lipids
Stomach Ulcer	D013276	75 associated lipids
Alzheimer Disease	D000544	76 associated lipids
Diabetes Mellitus, Experimental	D003921	85 associated lipids
Seizures	D012640	87 associated lipids
Diabetes Mellitus, Type 2	D003924	87 associated lipids
Brain Ischemia	D002545	89 associated lipids
Diabetes Mellitus	D003920	90 associated lipids
Insulin Resistance	D007333	99 associated lipids
Weight Gain	D015430	101 associated lipids
Glioma	D005910	112 associated lipids
Hypertension	D006973	115 associated lipids

Authors	Title	Published	Journal	PubMed Link
Rubio M et al.	Short-term exposure to alcohol in rats affects brain levels of anandamide, other N-acylethanolamines and 2-arachidonoyl-glycerol.	2007	Neurosci. Lett.	pmid:17574742
Jaggar SI et al.	The endogenous cannabinoid anandamide, but not the CB2 ligand palmitoylethanolamide, prevents the viscero-visceral hyper-reflexia associated with inflammation of the rat urinary bladder.	1998	Neurosci. Lett.	pmid:9774165
Milton NG	Anandamide and noladin ether prevent neurotoxicity of the human amyloid-beta peptide.	2002	Neurosci. Lett.	pmid:12384227
Abalo R et al.	Evaluation of the effect of age on cannabinoid receptor functionality and expression in guinea-pig ileum longitudinal muscle-myenteric plexus preparations.	2005 Jul 22-29	Neurosci. Lett.	pmid:15936532
Mendiguren A and Pineda J	Cannabinoids enhance N-methyl-D-aspartate-induced excitation of locus coeruleus neurons by CB1 receptors in rat brain slices.	2004	Neurosci. Lett.	pmid:15157983
Sinor AD et al.	Endocannabinoids protect cerebral cortical neurons from in vitro ischemia in rats.	2000	Neurosci. Lett.	pmid:10653017
MartÃnez-GonzÃ¡lez D et al.	Oleamide and anandamide effects on food intake and sexual behavior of rats.	2004	Neurosci. Lett.	pmid:15193744
Abalo R et al.	Postnatal maturation of the gastrointestinal tract: a functional and immunohistochemical study in the guinea-pig ileum at weaning.	2009	Neurosci. Lett.	pmid:19819299
Rueda-Orozco PE et al.	Intrahippocampal administration of anandamide increases REM sleep.	2010	Neurosci. Lett.	pmid:20188142
Pamplona FA et al.	Aspirin-triggered lipoxin induces CB1-dependent catalepsy in mice.	2010	Neurosci. Lett.	pmid:20036315
Luo C et al.	Anandamide inhibits excitatory transmission to rat substantia gelatinosa neurones in a manner different from that of capsaicin.	2002	Neurosci. Lett.	pmid:11872246
Leweke FM et al.	Elevated endogenous cannabinoids in schizophrenia.	1999	Neuroreport	pmid:10501554
Beltramo M and Piomelli D	Carrier-mediated transport and enzymatic hydrolysis of the endogenous cannabinoid 2-arachidonylglycerol.	2000	Neuroreport	pmid:10817598
Harris J et al.	Spinal anandamide inhibits nociceptive transmission via cannabinoid receptor activation in vivo.	2000	Neuroreport	pmid:10976969
SzÃ¶ke E et al.	Interacting effects of capsaicin and anandamide on intracellular calcium in sensory neurones.	2000	Neuroreport	pmid:10884049
Molina-Holgado F et al.	Anandamide suppresses nitric oxide and TNF-alpha responses to Theiler's virus or endotoxin in astrocytes.	1997	Neuroreport	pmid:9223079
Cottone E et al.	Goldfish CB1 mRNA expression is affected by fasting and anandamide administration.	2009	Neuroreport	pmid:19293731
Sparling PB et al.	Exercise activates the endocannabinoid system.	2003	Neuroreport	pmid:14625449
Murillo-RodrÃguez E et al.	Anandamide-induced sleep is blocked by SR141716A, a CB1 receptor antagonist and by U73122, a phospholipase C inhibitor.	2001	Neuroreport	pmid:11447321
Shinohara Y et al.	Cannabinoid in the nucleus accumbens enhances the intake of palatable solution.	2009	Neuroreport	pmid:19734811
Ishii I and Chun J	Anandamide-induced neuroblastoma cell rounding via the CB1 cannabinoid receptors.	2002	Neuroreport	pmid:11973452
Mahler SV et al.	Endocannabinoid hedonic hotspot for sensory pleasure: anandamide in nucleus accumbens shell enhances 'liking' of a sweet reward.	2007	Neuropsychopharmacology	pmid:17406653
Izumi Y and Zorumski CF	NMDA receptors, mGluR5, and endocannabinoids are involved in a cascade leading to hippocampal long-term depression.	2012	Neuropsychopharmacology	pmid:21993209
Gunduz-Cinar O et al.	Fluoxetine Facilitates Fear Extinction Through Amygdala Endocannabinoids.	2016	Neuropsychopharmacology	pmid:26514583
Monteleone P et al.	Blood levels of the endocannabinoid anandamide are increased in anorexia nervosa and in binge-eating disorder, but not in bulimia nervosa.	2005	Neuropsychopharmacology	pmid:15841111
Giuffrida A et al.	Cerebrospinal anandamide levels are elevated in acute schizophrenia and are inversely correlated with psychotic symptoms.	2004	Neuropsychopharmacology	pmid:15354183
Morena M et al.	Neurobiological Interactions Between Stress and the Endocannabinoid System.	2016	Neuropsychopharmacology	pmid:26068727
Centonze D et al.	A critical interaction between dopamine D2 receptors and endocannabinoids mediates the effects of cocaine on striatal gabaergic Transmission.	2004	Neuropsychopharmacology	pmid:15100701
Pietrzak RH et al.	Cannabinoid type 1 receptor availability in the amygdala mediates threat processing in trauma survivors.	2014	Neuropsychopharmacology	pmid:24820537
Dubreucq S et al.	Genetic dissection of the role of cannabinoid type-1 receptors in the emotional consequences of repeated social stress in mice.	2012	Neuropsychopharmacology	pmid:22434220
Oleson EB et al.	Cannabinoid receptor activation shifts temporally engendered patterns of dopamine release.	2014	Neuropsychopharmacology	pmid:24345819
Falenski KW et al.	FAAH-/- mice display differential tolerance, dependence, and cannabinoid receptor adaptation after delta 9-tetrahydrocannabinol and anandamide administration.	2010	Neuropsychopharmacology	pmid:20357755
Varvel SA et al.	Inhibition of fatty-acid amide hydrolase accelerates acquisition and extinction rates in a spatial memory task.	2007	Neuropsychopharmacology	pmid:17047668
Sarchielli P et al.	Endocannabinoids in chronic migraine: CSF findings suggest a system failure.	2007	Neuropsychopharmacology	pmid:17119542
Bortolato M et al.	Anxiolytic-like properties of the anandamide transport inhibitor AM404.	2006	Neuropsychopharmacology	pmid:16541083
Buczynski MW et al.	The volitional nature of nicotine exposure alters anandamide and oleoylethanolamide levels in the ventral tegmental area.	2013	Neuropsychopharmacology	pmid:23169348
Seillier A et al.	Phencyclidine-induced social withdrawal results from deficient stimulation of cannabinoid CBâ‚ receptors: implications for schizophrenia.	2013	Neuropsychopharmacology	pmid:23563893
Fernandez-Espejo E et al.	Experimental parkinsonism alters anandamide precursor synthesis, and functional deficits are improved by AM404: a modulator of endocannabinoid function.	2004	Neuropsychopharmacology	pmid:15010694
Hill MN et al.	Suppression of amygdalar endocannabinoid signaling by stress contributes to activation of the hypothalamic-pituitary-adrenal axis.	2009	Neuropsychopharmacology	pmid:19710634
Stein EA et al.	Selective effects of the endogenous cannabinoid arachidonylethanolamide (anandamide) on regional cerebral blood flow in the rat.	1998	Neuropsychopharmacology	pmid:9803424
Gyires K and ZÃ¡dori Z	[Analysis of central mechanisms involved in gastric mucosal integrity].	2008	Neuropsychopharmacol Hung	pmid:18956615
Ferreira SG et al.	N-acyldopamines control striatal input terminals via novel ligand-gated cation channels.	2009	Neuropharmacology	pmid:19101577
Hillard CJ and Jarrahian A	Accumulation of anandamide: evidence for cellular diversity.	2005	Neuropharmacology	pmid:15910883
Starowicz K et al.	Spinal anandamide produces analgesia in neuropathic rats: possible CB(1)- and TRPV1-mediated mechanisms.	2012	Neuropharmacology	pmid:22178705
Liu J et al.	Multiple pathways involved in the biosynthesis of anandamide.	2008	Neuropharmacology	pmid:17631919
Nader J et al.	Prior stimulation of the endocannabinoid system prevents methamphetamine-induced dopaminergic neurotoxicity in the striatum through activation of CB2 receptors.	2014	Neuropharmacology	pmid:24709540
Lisboa SF and GuimarÃ£es FS	Differential role of CB1 and TRPV1 receptors on anandamide modulation of defensive responses induced by nitric oxide in the dorsolateral periaqueductal gray.	2012	Neuropharmacology	pmid:22394688
Citraro R et al.	Antiepileptic action of N-palmitoylethanolamine through CB1 and PPAR-Î± receptor activation in a genetic model of absence epilepsy.	2013	Neuropharmacology	pmid:23206503
Poling JS et al.	Anandamide, an endogenous cannabinoid, inhibits Shaker-related voltage-gated K+ channels.	1996	Neuropharmacology	pmid:8938728
Placzek EA et al.	Membrane microdomains and metabolic pathways that define anandamide and 2-arachidonyl glycerol biosynthesis and breakdown.	2008	Neuropharmacology	pmid:18760289

Anandamide

Cross Reference

Introduction

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Possible diseases from mapped MeSH terms on references

PubChem Associated disorders and diseases

What pathways are associated with Anandamide

PubChem Biomolecular Interactions and Pathways

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Visualization in cellular structure

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NCBI Entrez Crosslinks

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