LipidPedia

tacrolimus

Tacrolimus is a lipid of Polyketides (PK) class. Tacrolimus is associated with abnormalities such as Renal glomerular disease. The involved functions are known as inhibitors, Fungicidal activity, Metabolic Inhibition, Excretory function and Dephosphorylation. Tacrolimus often locates in Hepatic, Mitochondrial matrix and Inner mitochondrial membrane. The associated genes with Tacrolimus are RHOA gene and BGN gene.

Cross Reference

Introduction

To understand associated biological information of tacrolimus, 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
Hemolysis	D006461	131 associated lipids
Uremia	D014511	33 associated lipids
Colitis, Ulcerative	D003093	24 associated lipids
Stomach Ulcer	D013276	75 associated lipids
Kidney Failure, Chronic	D007676	51 associated lipids
Nocardia Infections	D009617	6 associated lipids
Diarrhea	D003967	32 associated lipids
Diabetes Mellitus	D003920	90 associated lipids
Graft Occlusion, Vascular	D006083	11 associated lipids
Hypercalcemia	D006934	13 associated lipids
Neovascularization, Pathologic	D009389	39 associated lipids
Adenocarcinoma	D000230	166 associated lipids
Dermatitis, Contact	D003877	59 associated lipids
Bacterial Infections	D001424	21 associated lipids
Pain	D010146	64 associated lipids
Autoimmune Diseases	D001327	27 associated lipids
Lupus Erythematosus, Systemic	D008180	43 associated lipids
Genital Diseases, Female	D005831	7 associated lipids
Mouth Diseases	D009059	5 associated lipids
Meningococcal Infections	D008589	3 associated lipids
Lung Diseases	D008171	37 associated lipids
Lung Neoplasms	D008175	171 associated lipids
Mycobacterium Infections	D009164	7 associated lipids
Sarcoidosis	D012507	13 associated lipids
Hepatolenticular Degeneration	D006527	3 associated lipids
Hyperglycemia	D006943	21 associated lipids
Carcinoma, Squamous Cell	D002294	14 associated lipids
Skin Neoplasms	D012878	12 associated lipids
Burns	D002056	34 associated lipids
Inflammation	D007249	119 associated lipids
Inflammatory Bowel Diseases	D015212	9 associated lipids
Reperfusion Injury	D015427	65 associated lipids
Colitis	D003092	69 associated lipids
Colonic Neoplasms	D003110	161 associated lipids
Diabetes Mellitus, Type 1	D003922	56 associated lipids
Diabetes Mellitus, Type 2	D003924	87 associated lipids
Fatty Liver	D005234	48 associated lipids
Cataract	D002386	34 associated lipids
Diabetes Mellitus, Experimental	D003921	85 associated lipids
Body Weight	D001835	333 associated lipids
Edema	D004487	152 associated lipids
Precancerous Conditions	D011230	48 associated lipids
Postoperative Complications	D011183	5 associated lipids
Arthritis	D001168	41 associated lipids
Arthritis, Experimental	D001169	24 associated lipids
Surgical Wound Infection	D013530	7 associated lipids
Neoplasm Recurrence, Local	D009364	5 associated lipids
Osteonecrosis	D010020	5 associated lipids
Hypotension	D007022	41 associated lipids
Acute Kidney Injury	D058186	34 associated lipids
Heart Failure	D006333	36 associated lipids
Angioedema	D000799	6 associated lipids
Fractures, Spontaneous	D005598	4 associated lipids
Hydronephrosis	D006869	4 associated lipids
Trypanosomiasis	D014352	5 associated lipids
Alopecia	D000505	14 associated lipids
Liver Diseases	D008107	31 associated lipids
Corneal Diseases	D003316	13 associated lipids
Testicular Diseases	D013733	15 associated lipids
Facial Dermatoses	D005148	7 associated lipids
Hypersensitivity	D006967	22 associated lipids
Osteosarcoma	D012516	50 associated lipids
Acne Vulgaris	D000152	35 associated lipids
Urination Disorders	D014555	9 associated lipids
Arterial Occlusive Diseases	D001157	12 associated lipids
Anemia, Hemolytic	D000743	4 associated lipids
Leukemia, Erythroblastic, Acute	D004915	41 associated lipids
Vision Disorders	D014786	10 associated lipids
Multiple Myeloma	D009101	13 associated lipids
Osteochondrodysplasias	D010009	3 associated lipids
Melanoma	D008545	69 associated lipids
Hematologic Diseases	D006402	3 associated lipids
Muscular Dystrophies	D009136	10 associated lipids
Osteoporosis	D010024	12 associated lipids
Anemia, Aplastic	D000741	6 associated lipids
Kidney Diseases	D007674	29 associated lipids
Hematuria	D006417	13 associated lipids
Weight Gain	D015430	101 associated lipids
Brain Diseases	D001927	27 associated lipids
Cardiovascular Diseases	D002318	24 associated lipids
Infection	D007239	6 associated lipids
Abnormalities, Multiple	D000015	13 associated lipids
Hypersensitivity, Delayed	D006968	43 associated lipids
Glioma	D005910	112 associated lipids
Cell Transformation, Neoplastic	D002471	126 associated lipids
Bone Diseases	D001847	4 associated lipids
Leukemia P388	D007941	43 associated lipids
Ulcer	D014456	16 associated lipids
Hypercholesterolemia	D006937	91 associated lipids
Obesity	D009765	29 associated lipids
Thrombosis	D013927	49 associated lipids
Bradycardia	D001919	13 associated lipids
Hemorrhage	D006470	15 associated lipids
Proteinuria	D011507	30 associated lipids
Lymphoma	D008223	18 associated lipids
Femur Head Necrosis	D005271	5 associated lipids
Alzheimer Disease	D000544	76 associated lipids
Drug Hypersensitivity	D004342	20 associated lipids
Eye Diseases	D005128	12 associated lipids
Arteriosclerosis	D001161	86 associated lipids

Authors	Title	Published	Journal	PubMed Link
Charlton M et al.	Everolimus Is Associated With Less Weight Gain Than Tacrolimus 2 Years After Liver Transplantation: Results of a Randomized Multicenter Study.	2017	Transplantation	pmid:28817434
Yamagami S et al.	Mechanism of concordant corneal xenograft rejection in mice: synergistic effects of anti-leukocyte function-associated antigen-1 monoclonal antibody and FK506.	1997	Transplantation	pmid:9233699
Singh N et al.	Immunosuppressive-associated leukoencephalopathy in organ transplant recipients.	2000	Transplantation	pmid:10708096
Gonwa T et al.	Randomized trial of tacrolimus in combination with sirolimus or mycophenolate mofetil in kidney transplantation: results at 6 months.	2003	Transplantation	pmid:12717205
Neuhaus P et al.	Comparison of FK506- and cyclosporine-based immunosuppression in primary orthotopic liver transplantation. A single center experience.	1995	Transplantation	pmid:7530868
Tzakis AG et al.	Preliminary experience with campath 1H (C1H) in intestinal and liver transplantation.	2003	Transplantation	pmid:12717207
Shield CF et al.	Assessment of health-related quality of life in kidney transplant patients receiving tacrolimus (FK506)-based versus cyclosporine-based immunosuppression. FK506 Kidney Transplant Study Group.	1997	Transplantation	pmid:9422413
Stegall MD et al.	Prednisone withdrawal 14 days after liver transplantation with mycophenolate: a prospective trial of cyclosporine and tacrolimus.	1997	Transplantation	pmid:9422416
Takeguchi N et al.	Inhibition of the multidrug efflux pump in isolated hepatocyte couplets by immunosuppressants FK506 and cyclosporine.	1993	Transplantation	pmid:7681229
Demetris AJ et al.	Conversion of liver allograft recipients from cyclosporine to FK506 immunosuppressive therapy--a clinicopathologic study of 96 patients.	1992	Transplantation	pmid:1374944
Bundick RV et al.	FK506 as an agonist to induce inhibition of interleukin 2 production.	1992	Transplantation	pmid:1374947
Kasahara M et al.	Living-related liver transplantation for type II citrullinemia using a graft from heterozygote donor.	2001	Transplantation	pmid:11211185
Ovuworie CA et al.	Vascular endothelial function in cyclosporine and tacrolimus treated renal transplant recipients.	2001	Transplantation	pmid:11685108
Oz HS et al.	Provocative effects of the immunosuppressants rapamycin, tacrolimus, and dexamethasone on pneumonitis in contrast to the anti- pneumonitis effects of mycophenolate mofetil.	2001	Transplantation	pmid:11685124
Mourad G et al.	Induction versus noninduction in renal transplant recipients with tacrolimus-based immunosuppression.	2001	Transplantation	pmid:11579299
Staatz CE et al.	Population pharmacokinetics of tacrolimus in children who receive cut-down or full liver transplants.	2001	Transplantation	pmid:11579300
Naesens M et al.	Multidrug resistance protein 2 genetic polymorphisms influence mycophenolic acid exposure in renal allograft recipients.	2006	Transplantation	pmid:17060857
Dominguez J et al.	Conversion to rapamycin immunosuppression in renal transplant recipients: report of an initial experience.	2000	Transplantation	pmid:11063349
Conrotto D et al.	Dramatic increase of tacrolimus plasma concentration during topical treatment for oral graft-versus-host disease.	2006	Transplantation	pmid:17060865
Esquivel CO et al.	Suggested guidelines for the use of tacrolimus in pediatric liver transplant patients.	1996	Transplantation	pmid:8607198
Jiang H et al.	Tacrolimus and cyclosporine differ in their capacity to overcome ongoing allograft rejection as a result of their differential abilities to inhibit interleukin-10 production.	2002	Transplantation	pmid:12085006
Nogueira JM et al.	A comparison of recipient renal outcomes with laparoscopic versus open live donor nephrectomy.	1999	Transplantation	pmid:10096529
Shapiro R et al.	Posttransplant diabetes in pediatric recipients on tacrolimus.	1999	Transplantation	pmid:10096540
Cooper MH et al.	Rapamycin but not FK506 inhibits the proliferation of mononuclear phagocytes induced by colony-stimulating factors.	1994	Transplantation	pmid:7509089
Stojanovic J et al.	Immune Desensitization Allows Pediatric Blood Group Incompatible Kidney Transplantation.	2017	Transplantation	pmid:27463537
Bechstein WO et al.	Efficacy and safety of tacrolimus compared with cyclosporine microemulsion in primary simultaneous pancreas-kidney transplantation: 1-year results of a large multicenter trial.	2004	Transplantation	pmid:15114089
Lo A et al.	Comparison of sirolimus-based calcineurin inhibitor-sparing and calcineurin inhibitor-free regimens in cadaveric renal transplantation.	2004	Transplantation	pmid:15114090
Shoker A et al.	Heightened CD40 ligand gene expression in peripheral CD4+ T cells from patients with kidney allograft rejection.	2000	Transplantation	pmid:10949194
Egawa H et al.	Isolated alkaline phosphatemia following pediatric liver transplantation in the FK506 ERA.	1995	Transplantation	pmid:7533958
Levitsky J et al.	Allospecific regulatory effects of sirolimus and tacrolimus in the human mixed lymphocyte reaction.	2011	Transplantation	pmid:21239962
Chan K et al.	Kidney transplantation with minimized maintenance: alemtuzumab induction with tacrolimus monotherapy--an open label, randomized trial.	2011	Transplantation	pmid:21836540
Qi S et al.	Effect of tacrolimus (FK506) and sirolimus (rapamycin) mono- and combination therapy in prolongation of renal allograft survival in the monkey.	2000	Transplantation	pmid:10798741
McDiarmid SV et al.	Differences in oral FK506 dose requirements between adult and pediatric liver transplant patients.	1993	Transplantation	pmid:7685933
Borger P et al.	Cyclosporine, FK506, mycophenolate mofetil, and prednisolone differentially modulate cytokine gene expression in human airway-derived epithelial cells.	2000	Transplantation	pmid:10798763
Jugie M et al.	Study of the impact of liver transplantation on the outcome of intestinal grafts in children.	2006	Transplantation	pmid:16612274
Song L et al.	Effects of ASKP1240 combined with tacrolimus or mycophenolate mofetil on renal allograft survival in Cynomolgus monkeys.	2014	Transplantation	pmid:24992357
Kasahara M et al.	Role of HLA compatibility in pediatric living-related liver transplantation.	2002	Transplantation	pmid:12438966
Shivaswamy V et al.	Metformin improves immunosuppressant induced hyperglycemia and exocrine apoptosis in rats.	2013	Transplantation	pmid:23250335
Xu H et al.	Simultaneous bone marrow and composite tissue transplantation in rats treated with nonmyeloablative conditioning promotes tolerance.	2013	Transplantation	pmid:23250336
Hudnall SD	Cardiac hypertrophy postliver transplantation: a role for FK506 and cyclosporine A?	2002	Transplantation	pmid:12369583
Vanrenterghem Y et al.	The effects of FK778 in combination with tacrolimus and steroids: a phase II multicenter study in renal transplant patients.	2004	Transplantation	pmid:15257032
Mourer JS et al.	Impact of late calcineurin inhibitor withdrawal on ambulatory blood pressure and carotid intima media thickness in renal transplant recipients.	2013	Transplantation	pmid:23715049
Armitage JM et al.	Preliminary experience with FK506 in thoracic transplantation.	1991	Transplantation	pmid:1713363
Lorber MI et al.	A comparison of in vivo responses to cyclosporine, FK506, and rapamycin following allogeneic immune challenge.	1991	Transplantation	pmid:1713364
Cohen JB et al.	Belatacept Compared With Tacrolimus for Kidney Transplantation: A Propensity Score Matched Cohort Study.	2017	Transplantation	pmid:27941427
Puig I MarÃ JM et al.	Reflex sympathetic dystrophy syndrome of the lower limbs in a renal transplant patient treated with tacrolimus.	2000	Transplantation	pmid:10919604
Erickson LM et al.	Microarray-based gene expression profiles of allograft rejection and immunosuppression in the rat heart transplantation model.	2003	Transplantation	pmid:12923448
Maluccio M et al.	Tacrolimus enhances transforming growth factor-beta1 expression and promotes tumor progression.	2003	Transplantation	pmid:12923450
Ryu S and Yasunami Y	The necessity of differential immunosuppression for prevention of immune rejection by FK506 in rat islet allografts transplanted into the liver or beneath the kidney capsule.	1991	Transplantation	pmid:1718064
Starzl TE et al.	Hepatotrophic properties in dogs of human FKBP, the binding protein for FK506 and rapamycin.	1991	Transplantation	pmid:1718068

tacrolimus

Cross Reference

Introduction

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Possible diseases from mapped MeSH terms on references

PubChem Associated disorders and diseases

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PubChem Biomolecular Interactions and Pathways

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Visualization in cellular structure

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NCBI Entrez Crosslinks

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