LipidPedia

MeSH term	MeSH ID	Detail
Alzheimer Disease	D000544	76 associated lipids
Anorexia	D000855	8 associated lipids
Arthritis, Experimental	D001169	24 associated lipids
Ataxia	D001259	20 associated lipids
Urinary Bladder Diseases	D001745	4 associated lipids
Body Weight	D001835	333 associated lipids
Bradycardia	D001919	13 associated lipids
Brain Concussion	D001924	5 associated lipids
Brain Damage, Chronic	D001925	6 associated lipids
Brain Edema	D001929	20 associated lipids
Breast Neoplasms	D001943	24 associated lipids
Bronchial Spasm	D001986	18 associated lipids
Bulimia	D002032	3 associated lipids
Cardiomyopathy, Dilated	D002311	15 associated lipids
Catalepsy	D002375	30 associated lipids
Celiac Disease	D002446	16 associated lipids
Brain Ischemia	D002545	89 associated lipids
Ischemic Attack, Transient	D002546	42 associated lipids
Colitis	D003092	69 associated lipids
Colonic Neoplasms	D003110	161 associated lipids
Cough	D003371	19 associated lipids
Diabetes Mellitus	D003920	90 associated lipids
Diabetes Mellitus, Experimental	D003921	85 associated lipids
Diabetes Mellitus, Type 2	D003924	87 associated lipids
Diabetic Retinopathy	D003930	39 associated lipids
Dyskinesia, Drug-Induced	D004409	15 associated lipids
Edema	D004487	152 associated lipids
Encephalomyelitis, Autoimmune, Experimental	D004681	26 associated lipids
Epilepsy	D004827	35 associated lipids
Fatty Liver	D005234	48 associated lipids
Fever	D005334	35 associated lipids
Fibromyalgia	D005356	4 associated lipids
Glioma	D005910	112 associated lipids
Hepatitis	D006505	11 associated lipids
Hyperalgesia	D006930	42 associated lipids
Hyperemia	D006940	25 associated lipids
Hyperinsulinism	D006946	27 associated lipids
Hyperkinesis	D006948	11 associated lipids
Hypersensitivity, Delayed	D006968	43 associated lipids
Hypertension	D006973	115 associated lipids
Hypertension, Portal	D006975	12 associated lipids
Hypotension	D007022	41 associated lipids
Hypothermia	D007035	19 associated lipids
Inflammation	D007249	119 associated lipids
Insulin Resistance	D007333	99 associated lipids
Intestinal Pseudo-Obstruction	D007418	5 associated lipids
Learning Disorders	D007859	11 associated lipids
Liver Cirrhosis	D008103	67 associated lipids
Melanoma	D008545	69 associated lipids
Memory Disorders	D008569	33 associated lipids
Migraine Disorders	D008881	11 associated lipids
Morphine Dependence	D009021	9 associated lipids
Multiple Sclerosis	D009103	13 associated lipids
Muscle Spasticity	D009128	5 associated lipids
Mycoses	D009181	18 associated lipids
Neoplasm Invasiveness	D009361	23 associated lipids
Neoplasms	D009369	13 associated lipids
Neovascularization, Pathologic	D009389	39 associated lipids
Nerve Degeneration	D009410	53 associated lipids
Nervous System Diseases	D009422	37 associated lipids
Neuralgia	D009437	28 associated lipids
Neuroblastoma	D009447	66 associated lipids
Obesity	D009765	29 associated lipids
Pain	D010146	64 associated lipids
Parkinson Disease, Secondary	D010302	17 associated lipids
Peptic Ulcer	D010437	19 associated lipids
Peripheral Nervous System Diseases	D010523	33 associated lipids
Picornaviridae Infections	D010850	4 associated lipids
Pregnancy, Ectopic	D011271	5 associated lipids
Prostatic Neoplasms	D011471	126 associated lipids
Schistosomiasis japonica	D012554	3 associated lipids
Seizures	D012640	87 associated lipids
Shock, Septic	D012772	11 associated lipids
Sleep Deprivation	D012892	5 associated lipids
Spinal Cord Injuries	D013119	34 associated lipids
Stomach Ulcer	D013276	75 associated lipids
Thyroid Neoplasms	D013964	33 associated lipids
Urinary Incontinence	D014549	4 associated lipids
Ventricular Fibrillation	D014693	16 associated lipids
Reperfusion Injury	D015427	65 associated lipids
Weight Gain	D015430	101 associated lipids
Ocular Hypotension	D015814	2 associated lipids
Alveolar Bone Loss	D016301	10 associated lipids
Cardiovirus Infections	D018188	3 associated lipids
Cholangiocarcinoma	D018281	7 associated lipids
Ventricular Dysfunction, Left	D018487	33 associated lipids
Impotence, Vasculogenic	D018783	4 associated lipids
Pancreatitis, Acute Necrotizing	D019283	18 associated lipids
Endotoxemia	D019446	27 associated lipids
Neurodegenerative Diseases	D019636	32 associated lipids
Substance-Related Disorders	D019966	2 associated lipids
Sleep Apnea, Obstructive	D020181	9 associated lipids
Infarction, Middle Cerebral Artery	D020244	35 associated lipids
Amnesia, Anterograde	D020324	2 associated lipids
Osteoarthritis, Knee	D020370	13 associated lipids
Sciatic Neuropathy	D020426	13 associated lipids
Parkinsonian Disorders	D020734	20 associated lipids
Somatosensory Disorders	D020886	1 associated lipids
Sleep Disorders, Intrinsic	D020919	1 associated lipids
Hypoxia-Ischemia, Brain	D020925	22 associated lipids

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Authors	Title	Published	Journal	PubMed Link
Grainger J and Boachie-Ansah G	Anandamide-induced relaxation of sheep coronary arteries: the role of the vascular endothelium, arachidonic acid metabolites and potassium channels.	2001	Br. J. Pharmacol.	pmid:11682448
KÃ¶falvi A et al.	Anandamide and NADA bi-directionally modulate presynaptic Ca2+ levels and transmitter release in the hippocampus.	2007	Br. J. Pharmacol.	pmid:17435795
Roberts LA et al.	Anandamide is a partial agonist at native vanilloid receptors in acutely isolated mouse trigeminal sensory neurons.	2002	Br. J. Pharmacol.	pmid:12359623
Izzo AA et al.	Inhibitory effect of cannabichromene, a major non-psychotropic cannabinoid extracted from Cannabis sativa, on inflammation-induced hypermotility in mice.	2012	Br. J. Pharmacol.	pmid:22300105
White R et al.	Mechanisms of anandamide-induced vasorelaxation in rat isolated coronary arteries.	2001	Br. J. Pharmacol.	pmid:11606334
Tucker RC et al.	The endogenous cannabinoid agonist, anandamide stimulates sensory nerves in guinea-pig airways.	2001	Br. J. Pharmacol.	pmid:11226144
Ghasemi M et al.	Role of the nitric oxide pathway and the endocannabinoid system in neurogenic relaxation of corpus cavernosum from biliary cirrhotic rats.	2007	Br. J. Pharmacol.	pmid:17486141
Ameri A et al.	Effects of the endogeneous cannabinoid, anandamide, on neuronal activity in rat hippocampal slices.	1999	Br. J. Pharmacol.	pmid:10372827
Fraga D et al.	Endogenous cannabinoids induce fever through the activation of CB1 receptors.	2009	Br. J. Pharmacol.	pmid:19681872
Lau BK et al.	Endocannabinoid modulation by FAAH and monoacylglycerol lipase within the analgesic circuitry of the periaqueductal grey.	2014	Br. J. Pharmacol.	pmid:25041240
Hillard CJ and Jarrahian A	Cellular accumulation of anandamide: consensus and controversy.	2003	Br. J. Pharmacol.	pmid:12970089
O'Sullivan SE et al.	Heterogeneity in the mechanisms of vasorelaxation to anandamide in resistance and conduit rat mesenteric arteries.	2004	Br. J. Pharmacol.	pmid:15148250
Pertwee RG et al.	Cross-tolerance between delta-9-tetrahydrocannabinol and the cannabimimetic agents, CP 55,940, WIN 55,212-2 and anandamide.	1993	Br. J. Pharmacol.	pmid:8306090
Vandevoorde S et al.	Lack of selectivity of URB602 for 2-oleoylglycerol compared to anandamide hydrolysis in vitro.	2007	Br. J. Pharmacol.	pmid:17143303
De Petrocellis L et al.	A re-evaluation of 9-HODE activity at TRPV1 channels in comparison with anandamide: enantioselectivity and effects at other TRP channels and in sensory neurons.	2012	Br. J. Pharmacol.	pmid:22861649
Wheal AJ et al.	Effects of chronic nitric oxide synthase inhibition on the cardiovascular responses to cannabinoids in vivo and in vitro.	2007	Br. J. Pharmacol.	pmid:17245361
Gauldie SD et al.	Anandamide activates peripheral nociceptors in normal and arthritic rat knee joints.	2001	Br. J. Pharmacol.	pmid:11159713
Stewart JL and McMahon LR	The fatty acid amide hydrolase inhibitor URB 597: interactions with anandamide in rhesus monkeys.	2011	Br. J. Pharmacol.	pmid:21449917
Patel S et al.	The general anesthetic propofol increases brain N-arachidonylethanolamine (anandamide) content and inhibits fatty acid amide hydrolase.	2003	Br. J. Pharmacol.	pmid:12839875
Gamaleddin I et al.	The selective anandamide transport inhibitor VDM11 attenuates reinstatement of nicotine seeking behaviour, but does not affect nicotine intake.	2011	Br. J. Pharmacol.	pmid:21501143
Howlett AC et al.	Endocannabinoid tone versus constitutive activity of cannabinoid receptors.	2011	Br. J. Pharmacol.	pmid:21545414
Booker L et al.	The fatty acid amide hydrolase (FAAH) inhibitor PF-3845 acts in the nervous system to reverse LPS-induced tactile allodynia in mice.	2012	Br. J. Pharmacol.	pmid:21506952
Costa B et al.	AM404, an inhibitor of anandamide uptake, prevents pain behaviour and modulates cytokine and apoptotic pathways in a rat model of neuropathic pain.	2006	Br. J. Pharmacol.	pmid:16770320
Shouman B et al.	Endocannabinoids potently protect the newborn brain against AMPA-kainate receptor-mediated excitotoxic damage.	2006	Br. J. Pharmacol.	pmid:16682966
McHugh D et al.	Î”(9) -Tetrahydrocannabinol and N-arachidonyl glycine are full agonists at GPR18 receptors and induce migration in human endometrial HEC-1B cells.	2012	Br. J. Pharmacol.	pmid:21595653
O'Sullivan SE et al.	The effects of Delta9-tetrahydrocannabinol in rat mesenteric vasculature, and its interactions with the endocannabinoid anandamide.	2005	Br. J. Pharmacol.	pmid:15821751
Guindon J et al.	Peripheral antinociceptive effects of inhibitors of monoacylglycerol lipase in a rat model of inflammatory pain.	2011	Br. J. Pharmacol.	pmid:21198549
Craib SJ et al.	A possible role of lipoxygenase in the activation of vanilloid receptors by anandamide in the guinea-pig bronchus.	2001	Br. J. Pharmacol.	pmid:11522594
Andrag E and Curtis MJ	Feasibility of targeting ischaemia-related ventricular arrhythmias by mimicry of endogenous protection by endocannabinoids.	2013	Br. J. Pharmacol.	pmid:23713981
Ford WR et al.	Evidence of a novel site mediating anandamide-induced negative inotropic and coronary vasodilatator responses in rat isolated hearts.	2002	Br. J. Pharmacol.	pmid:11877326
Jacobsson SO and Fowler CJ	Characterization of palmitoylethanolamide transport in mouse Neuro-2a neuroblastoma and rat RBL-2H3 basophilic leukaemia cells: comparison with anandamide.	2001	Br. J. Pharmacol.	pmid:11309246
Spicuzza L et al.	Characterization of the effects of cannabinoids on guinea-pig tracheal smooth muscle tone: role in the modulation of acetylcholine release from parasympathetic nerves.	2000	Br. J. Pharmacol.	pmid:10928980
Maione S et al.	Antinociceptive effects of tetrazole inhibitors of endocannabinoid inactivation: cannabinoid and non-cannabinoid receptor-mediated mechanisms.	2008	Br. J. Pharmacol.	pmid:18660824
Soria-GÃ³mez E et al.	Pharmacological enhancement of the endocannabinoid system in the nucleus accumbens shell stimulates food intake and increases c-Fos expression in the hypothalamus.	2007	Br. J. Pharmacol.	pmid:17549045
Gardiner SM et al.	Complex regional haemodynamic effects of anandamide in conscious rats.	2002	Br. J. Pharmacol.	pmid:11959791
Jia Y et al.	Anandamide induces cough in conscious guinea-pigs through VR1 receptors.	2002	Br. J. Pharmacol.	pmid:12411414
Bittner S et al.	TASK1 modulates inflammation and neurodegeneration in autoimmune inflammation of the central nervous system.	2009	Brain	pmid:19570851
Centonze D et al.	The endocannabinoid system is dysregulated in multiple sclerosis and in experimental autoimmune encephalomyelitis.	2007	Brain	pmid:17626034
Butti E et al.	Subventricular zone neural progenitors protect striatal neurons from glutamatergic excitotoxicity.	2012	Brain	pmid:23008234
Patel RR et al.	Aberrant epilepsy-associated mutant Nav1.6 sodium channel activity can be targeted with cannabidiol.	2016	Brain	pmid:27267376
Doenni VM et al.	Deficient adolescent social behavior following early-life inflammation is ameliorated by augmentation of anandamide signaling.	2016	Brain Behav. Immun.	pmid:27453335
Rossi S et al.	Cannabinoid CB1 receptors regulate neuronal TNF-Î± effects in experimental autoimmune encephalomyelitis.	2011	Brain Behav. Immun.	pmid:21473912
Mecha M et al.	Endocannabinoids drive the acquisition of an alternative phenotype in microglia.	2015	Brain Behav. Immun.	pmid:26086345
Correa F et al.	The endocannabinoid anandamide downregulates IL-23 and IL-12 subunits in a viral model of multiple sclerosis: evidence for a cross-talk between IL-12p70/IL-23 axis and IL-10 in microglial cells.	2011	Brain Behav. Immun.	pmid:21310228
Murillo-RodrÃguez E et al.	Anandamide modulates sleep and memory in rats.	1998	Brain Res.	pmid:9813364
Prevot V et al.	Morphine and anandamide coupling to nitric oxide stimulates GnRH and CRF release from rat median eminence: neurovascular regulation.	1998	Brain Res.	pmid:9593913
Stefano GB et al.	Anandamide amidase inhibition enhances anandamide-stimulated nitric oxide release in invertebrate neural tissues.	1998	Brain Res.	pmid:9630717
Soni N et al.	Anandamide and 2-AG are endogenously present within the laterodorsal tegmental nucleus: Functional implications for a role of eCBs in arousal.	2017	Brain Res.	pmid:28404451
Hoot MR et al.	Chronic constriction injury reduces cannabinoid receptor 1 activity in the rostral anterior cingulate cortex of mice.	2010	Brain Res.	pmid:20380816
Minowa S et al.	Capsaicin- and anandamide-induced gastric acid secretion via vanilloid receptor type 1 (TRPV1) in rat brain.	2005	Brain Res.	pmid:15781048

Anandamide

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Introduction

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PubChem Associated disorders and diseases

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Visualization in cellular structure

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