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.
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.
tacrolimus is suspected in Renal glomerular disease, Candidiasis, Mycoses, PARKINSON DISEASE, LATE-ONSET, Morphologically altered structure, Skin Diseases, Infectious and other diseases in descending order of the highest number of associated sentences.
Disease | Cross reference | Weighted score | Related literature |
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We collected disease MeSH terms mapped to the references associated with tacrolimus
There are no associated biomedical information in the current reference collection.
Associated locations are in red color. Not associated locations are in black.
Location | Cross reference | Weighted score | Related literatures |
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Function | Cross reference | Weighted score | Related literatures |
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Lipid concept | Cross reference | Weighted score | Related literatures |
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Gene | Cross reference | Weighted score | Related literatures |
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There are no associated biomedical information in the current reference collection.
Authors | Title | Published | Journal | PubMed Link |
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McCune TR et al. | Effects of tacrolimus on hyperlipidemia after successful renal transplantation: a Southeastern Organ Procurement Foundation multicenter clinical study. | 1998 | Transplantation | pmid:9448150 |
Frassetto LA et al. | Best single time point correlations with AUC for cyclosporine and tacrolimus in HIV-infected kidney and liver transplant recipients. | 2014 | Transplantation | pmid:24389906 |
Fung JJ | Tacrolimus and transplantation: a decade in review. | 2004 | Transplantation | pmid:15201685 |
Kee TY et al. | Treatment of subclinical rejection diagnosed by protocol biopsy of kidney transplants. | 2006 | Transplantation | pmid:16861939 |
Sawabe T et al. | Sinus arrest during tacrolimus (FK506) and digitalis treatment in a bone marrow transplant recipient. | 1997 | Transplantation | pmid:9233725 |
Gonwa T et al. | Randomized trial of tacrolimus + mycophenolate mofetil or azathioprine versus cyclosporine + mycophenolate mofetil after cadaveric kidney transplantation: results at three years. | 2003 | Transplantation | pmid:12829910 |
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 |
Staatz CE et al. | Population pharmacokinetics of tacrolimus in children who receive cut-down or full liver transplants. | 2001 | Transplantation | pmid:11579300 |
Mueller AR et al. | Neurotoxicity after orthotopic liver transplantation. A comparison between cyclosporine and FK506. | 1994 | Transplantation | pmid:7518974 |
Takaya S et al. | Liver transplantation in positive cytotoxic crossmatch cases using FK506, high-dose steroids, and prostaglandin E1. | 1992 | Transplantation | pmid:1279851 |
Wasik M et al. | Effect of FK506 versus cyclosporine on human natural and antibody-dependent cytotoxicity reactions in vitro. | 1991 | Transplantation | pmid:1702910 |
Hilbrands R et al. | Predictive factors of allosensitization after immunosuppressant withdrawal in recipients of long-term cultured islet cell grafts. | 2013 | Transplantation | pmid:23857001 |
Sato T et al. | Diabetes mellitus after transplant: relationship to pretransplant glucose metabolism and tacrolimus or cyclosporine A-based therapy. | 2003 | Transplantation | pmid:14627910 |
Arroyo Hornero R et al. | CD45RA Distinguishes CD4+CD25+CD127-/low TSDR Demethylated Regulatory T Cell Subpopulations With Differential Stability and Susceptibility to Tacrolimus-Mediated Inhibition of Suppression. | 2017 | Transplantation | pmid:28118317 |
Ochiai T et al. | Effects of combination treatment with FK506 and cyclosporine on survival time and vascular changes in renal-allograft-recipient dogs. | 1989 | Transplantation | pmid:2474209 |
Tan HP et al. | Pediatric living donor kidney transplantation under alemtuzumab pretreatment and tacrolimus monotherapy: 4-year experience. | 2008 | Transplantation | pmid:19104412 |
Neuhaus P et al. | Quadruple tacrolimus-based induction therapy including azathioprine and ALG does not significantly improve outcome after liver transplantation when compared with standard induction with tacrolimus and steroids: results of a prospective, randomized trial. | 2000 | Transplantation | pmid:10868638 |
Metcalfe S and Milner J | Evidence that FK506 and rapamycin block T cell activation at different sites relative to early reversible phosphorylation involving the protein phosphatases PP1 and PP2A. | 1991 | Transplantation | pmid:1710844 |
Mohamed MA et al. | TGF-beta expression in renal transplant biopsies: a comparative study between cyclosporin-A and tacrolimus. | 2000 | Transplantation | pmid:10755567 |
Ciancio G et al. | A randomized long-term trial of tacrolimus and sirolimus versus tacrolimus and mycophenolate mofetil versus cyclosporine (NEORAL) and sirolimus in renal transplantation. I. Drug interactions and rejection at one year. | 2004 | Transplantation | pmid:14742989 |