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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Copacia JA et al. | 70% Ethanol for Decontamination of Central Venous Lines Exposed to Calcineurin Inhibitors. | 2018 | Ann Pharmacother | pmid:28838253 |
Jha AK et al. | Dermoscopy as an evolving tool to assess vitiligo activity. | 2018 | J. Am. Acad. Dermatol. | pmid:29229577 |
Butler KV et al. | Targeted Gene Repression Using Novel Bifunctional Molecules to Harness Endogenous Histone Deacetylation Activity. | 2018 | ACS Synth Biol | pmid:29073761 |
Altieri M et al. | Conversion From Once-Daily Prolonged-Release Tacrolimus to Once-Daily Extended-Release Tacrolimus in Stable Liver Transplant Recipients. | 2018 | Exp Clin Transplant | pmid:28697715 |
Lancia P et al. | Adverse Events under Tacrolimus and Cyclosporine in the First 3 Years Post-Renal Transplantation in Children. | 2018 | Clin Drug Investig | pmid:29236209 |
Cheng CY et al. | Intervention of Online Percent Coefficient of Variation Reporting System Reduces the Variability of Tacrolimus Trough Concentration in Kidney Transplant Recipients. | 2018 | Transplant. Proc. | pmid:30316366 |
Wen L et al. | Transient High Pressure in Pancreatic Ducts Promotes Inflammation and Alters Tight Junctions via Calcineurin Signaling in Mice. | 2018 | Gastroenterology | pmid:29928898 |
Belaiche S et al. | Factors associated with the variability of calcineurin inhibitor blood levels in kidney recipients grafted for more than 1Â year. | 2018 | Fundam Clin Pharmacol | pmid:29069531 |
Ohtsuki M et al. | Tacrolimus ointment for the treatment of adult and pediatric atopic dermatitis: Review on safety and benefits. | 2018 | J. Dermatol. | pmid:29927498 |
Castedal M et al. | Steroid-free immunosuppression with low-dose tacrolimus is safe and significantly reduces the incidence of new-onset diabetes mellitus following liver transplantation. | 2018 | Scand. J. Gastroenterol. | pmid:29688072 |
Niel O and Bastard P | Artificial intelligence improves estimation of tacrolimus area under the concentration over time curve in renal transplant recipients. | 2018 | Transpl. Int. | pmid:29687486 |
Gmitterová K et al. | Tacrolimus-induced parkinsonism in a patient after liver transplantation - case report. | 2018 | BMC Neurol | pmid:29678162 |
Komine N et al. | Influence of CYP3A5 genetic differences in tacrolimus on quantitative interstitial fibrosis and long-term graft function in kidney transplant recipients. | 2018 | Int. Immunopharmacol. | pmid:29550576 |
Kagaya H et al. | Prediction of Tacrolimus Exposure by CYP3A5 Genotype and Exposure of Co-Administered Everolimus in Japanese Renal Transplant Recipients. | 2018 | Int J Mol Sci | pmid:29547545 |
Yamada R et al. | A case of duodenal malignant lymphoma presenting as acute pancreatitis: systemic lupus erythematosus and immunosuppressive therapy as risk factors. | 2018 | Clin J Gastroenterol | pmid:29546569 |
Qin X et al. | Multi-center Performance Evaluations of Tacrolimus and Cyclosporine Electrochemiluminescence Immunoassays in the Asia-Pacific Region. | 2018 | Ann Lab Med | pmid:29214751 |
Konno O et al. | Early Outcomes of Living-Donor Kidney Transplantation With Immunosuppression Therapy Induction With Tacrolimus Extended-Release: A Comparison With Cyclosporine. | 2018 | Transplant. Proc. | pmid:30316378 |
Yu K et al. | Tacrolimus nanoparticles based on chitosan combined with nicotinamide: enhancing percutaneous delivery and treatment efficacy for atopic dermatitis and reducing dose. | 2018 | Int J Nanomedicine | pmid:29317821 |
Tsujimura K et al. | Effect of Influenza Vaccine in Patients With Kidney Transplant. | 2018 | Transplant. Proc. | pmid:30316375 |
Xia T et al. | Targeted metabolomic analysis of 33 amino acids and biogenic amines in human urine by ion-pairing HPLC-MS/MS: Biomarkers for tacrolimus nephrotoxicity after renal transplantation. | 2018 | Biomed. Chromatogr. | pmid:29369388 |