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.
What diseases are associated with tacrolimus?
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.
Related references are mostly published in these journals:
- Antimicrob. Agents Chemother. (2)
- Am. J. Physiol. Renal Physiol. (1)
- Drug Metab. Dispos. (1)
- Others (1)
| Disease | Cross reference | Weighted score | Related literature |
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Possible diseases from mapped MeSH terms on references
We collected disease MeSH terms mapped to the references associated with tacrolimus
PubChem Associated disorders and diseases
What pathways are associated with tacrolimus
There are no associated biomedical information in the current reference collection.
PubChem Biomolecular Interactions and Pathways
Link to PubChem Biomolecular Interactions and PathwaysWhat cellular locations are associated with tacrolimus?
Visualization in cellular structure
Associated locations are in red color. Not associated locations are in black.
Related references are published most in these journals:
| Location | Cross reference | Weighted score | Related literatures |
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What functions are associated with tacrolimus?
Related references are published most in these journals:
| Function | Cross reference | Weighted score | Related literatures |
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What lipids are associated with tacrolimus?
Related references are published most in these journals:
| Lipid concept | Cross reference | Weighted score | Related literatures |
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What genes are associated with tacrolimus?
Related references are published most in these journals:
| Gene | Cross reference | Weighted score | Related literatures |
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What common seen animal models are associated with tacrolimus?
There are no associated biomedical information in the current reference collection.
NCBI Entrez Crosslinks
All references with tacrolimus
Download all related citations| Authors | Title | Published | Journal | PubMed Link |
|---|---|---|---|---|
| Béland MA et al. | Higher calcineurin inhibitor levels predict better kidney graft survival in patients with de novo donor-specific anti-HLA antibodies: a cohort study. | 2017 | Transpl. Int. | pmid:28186642 |
| Colombo M et al. | Influence of Drug Brittleness, Nanomilling Time, and Freeze-Drying on the Crystallinity of Poorly Water-Soluble Drugs and Its Implications for Solubility Enhancement. | 2017 | AAPS PharmSciTech | pmid:28168626 |
| Saliba F et al. | Efficacy and Safety of Everolimus and Mycophenolic Acid With Early Tacrolimus Withdrawal After Liver Transplantation: A Multicenter Randomized Trial. | 2017 | Am. J. Transplant. | pmid:28133906 |
| Sukkha S et al. | Trough level from twice daily to once daily tacrolimus in early conversion kidney transplant recipients: a prospective study. | 2017 | Int J Clin Pharm | pmid:29101615 |
| Elens L and Haufroid V | Genotype-based tacrolimus dosing guidelines: with or without CYP3A4*22? | 2017 | Pharmacogenomics | pmid:29095105 |
| Song L et al. | ASP2409, A Next-Generation CTLA4-Ig, Versus Belatacept in Renal Allograft Survival in Cynomolgus Monkeys. | 2017 | Am. J. Transplant. | pmid:27598231 |
| Sopko NA et al. | Ex Vivo Model of Human Penile Transplantation and Rejection: Implications for Erectile Tissue Physiology. | 2017 | Eur. Urol. | pmid:27432525 |
| Al-Uzri A et al. | Longitudinal study on the use of dried blood spots for home monitoring in children after kidney transplantation. | 2017 | Pediatr Transplant | pmid:28635157 |
| Ma X et al. | Inhibition effect of tacrolimus and platelet-derived growth factor-BB on restenosis after vascular intimal injury. | 2017 | Biomed. Pharmacother. | pmid:28633129 |
| Zidan AS | Taste-masked tacrolimus-phospholipid nanodispersions: dissolution enhancement, taste masking and reduced gastric complications. | 2017 | Pharm Dev Technol | pmid:26811031 |
| Ueno P et al. | Wound Healing Complications in Kidney Transplant Recipients Receiving Everolimus. | 2017 | Transplantation | pmid:27490418 |
| Ekman-Joelsson BM et al. | Post-transplant lymphoproliferative disease is associated with early sternotomy and left ventricular hypoplasia during infancy: a population-based retrospective review. | 2017 | Cardiol Young | pmid:28780922 |
| Saburi M et al. | Effects of calcineurin inhibitors on sodium excretion in recipients of allogeneic hematopoietic stem cell transplantation. | 2017 | Int. J. Hematol. | pmid:28516402 |
| Ferreira A et al. | Donor-Specific Anti-Human Leukocyte Antigens Antibodies, Acute Rejection, Renal Function, and Histology in Kidney Transplant Recipients Receiving Tacrolimus and Everolimus. | 2017 | Am. J. Nephrol. | pmid:28511172 |
| Gu K et al. | Atypical pneumonia due to human bocavirus in an immunocompromised patient. | 2017 | CMAJ | pmid:28507089 |
| Ren S et al. | Comparative effectiveness and tolerance of immunosuppressive treatments for idiopathic membranous nephropathy: A network meta-analysis. | 2017 | PLoS ONE | pmid:28898290 |
| Wilkes SR et al. | More Atopic Dermatitis Trials Using Standard Treatments as Active Comparators, Please. | 2017 | J. Invest. Dermatol. | pmid:28249793 |
| Piñana JL et al. | A Time-to-Event Model for Acute Kidney Injury after Reduced-Intensity Conditioning Stem Cell Transplantation Using a Tacrolimus- and Sirolimus-based Graft-versus-Host Disease Prophylaxis. | 2017 | Biol. Blood Marrow Transplant. | pmid:28396159 |
| Heemann U and Viklicky O | Is trough level variability the new tool for identifying patients at risk for rejection after transplantation? | 2017 | Nephrol. Dial. Transplant. | pmid:28186537 |
| Gnarra M et al. | Low-Dose Cyclosporine A in the Treatment of Severe Atopic Dermatitis Complicated by Chronic Hepatitis C Virus Infection. | 2017 | Pediatr Dermatol | pmid:28382768 |
| Undre N and Dickinson J | Relative bioavailability of single doses of prolonged-release tacrolimus administered as a suspension, orally or via a nasogastric tube, compared with intact capsules: a phase 1 study in healthy participants. | 2017 | BMJ Open | pmid:28377389 |
| Størset E et al. | Response to: 'Response to: Bodyweight-adjustments introduce significant correlations between CYP3A metrics and tacrolimus clearance'. | 2017 | Br J Clin Pharmacol | pmid:28374426 |
| Wen Y et al. | Inhibition of Calcineurin A by FK506 Suppresses Seizures and Reduces the Expression of GluN2B in Membrane Fraction. | 2017 | Neurochem. Res. | pmid:28299629 |
| Forns X et al. | Efficacy, safety, and pharmacokinetics of simeprevir, daclatasvir, and ribavirin in patients with recurrent hepatitis C virus genotype 1b infection after orthotopic liver transplantation: The Phase II SATURN study. | 2017 | Transpl Infect Dis | pmid:28295849 |
| Ericzon BG et al. | Pharmacokinetics of prolonged-release tacrolimus versus immediate-release tacrolimus in de novo liver transplantation: A randomized phase III substudy. | 2017 | Clin Transplant | pmid:28295581 |
| Lum EL et al. | Acute Kidney Allograft Rejection Precipitated by Lenalidomide Treatment for Multiple Myeloma. | 2017 | Am. J. Kidney Dis. | pmid:28189378 |
| Xie Y et al. | Delayed Donor Bone Marrow Infusion Induces Liver Transplant Tolerance. | 2017 | Transplantation | pmid:28187014 |
| Smolders EJ et al. | Decreased tacrolimus plasma concentrations during HCV therapy: a drug-drug interaction or is there an alternative explanation? | 2017 | Int. J. Antimicrob. Agents | pmid:28185946 |
| Wang J et al. | The correlation between the expression of genes involved in drug metabolism and the blood level of tacrolimus in liver transplant receipts. | 2017 | Sci Rep | pmid:28611384 |
| Sakurai K et al. | Efficacy of combination therapy with tacrolimus and mizoribine for cyclophosphamide-resistant ANCA-associated glomerulonephritis. | 2017 | Int J Rheum Dis | pmid:28205382 |
| 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 |
| Liu MZ et al. | IL-3 and CTLA4 gene polymorphisms may influence the tacrolimus dose requirement in Chinese kidney transplant recipients. | 2017 | Acta Pharmacol. Sin. | pmid:28112181 |
| Nishiya Y et al. | A new efficient method of generating photoaffinity beads for drug target identification. | 2017 | Bioorg. Med. Chem. Lett. | pmid:28108248 |
| Chung BH et al. | Suppressive Effect of 1α,25-Dihydroxyvitamin D3 on Th17-Immune Responses in Kidney Transplant Recipients With Tacrolimus-Based Immunosuppression. | 2017 | Transplantation | pmid:28107277 |
| Herskovitz J et al. | Immune Suppression During Preclinical Drug Development Mitigates Immunogenicity-Mediated Impact on Therapeutic Exposure. | 2017 | AAPS J | pmid:28070711 |
| Noguchi A et al. | Differences in therapeutic effects of topically applied corticosteroid and tacrolimus on atopic dermatitis-like symptoms in NC/Nga mice. | 2017 | J. Dermatol. Sci. | pmid:28069324 |
| Wungwattana M and Savic M | Tacrolimus interaction with nafcillin resulting in significant decreases in tacrolimus concentrations: A case report. | 2017 | Transpl Infect Dis | pmid:28067989 |
| MartÃn-Fernández M et al. | Effects of Cyclosporine, Tacrolimus, and Rapamycin on Osteoblasts. | 2017 | Transplant. Proc. | pmid:29149986 |
| Ivulich S et al. | Clinical Challenges of Tacrolimus for Maintenance Immunosuppression Post-Lung Transplantation. | 2017 | Transplant. Proc. | pmid:29149976 |
| Liberal R et al. | Expert clinical management of autoimmune hepatitis in the real world. | 2017 | Aliment. Pharmacol. Ther. | pmid:28004405 |
| Segal JP et al. | Systematic review with meta-analysis: the management of chronic refractory pouchitis with an evidence-based treatment algorithm. | 2017 | Aliment. Pharmacol. Ther. | pmid:28008631 |
| Nakamura K et al. | AS2553627, a novel JAK inhibitor, prevents chronic rejection in rat cardiac allografts. | 2017 | Eur. J. Pharmacol. | pmid:27993641 |
| Goldsmith PM et al. | Impact of intrapatient variability (IPV) in tacrolimus trough levels on long-term renal transplant function: multicentre collaborative retrospective cohort study protocol. | 2017 | BMJ Open | pmid:28756385 |
| Lewis DJ et al. | Oral bexarotene for post-transplant cutaneous T-cell lymphoma. | 2017 | Dermatol Ther | pmid:28748653 |
| Gelens MACJ et al. | No evidence for progressive deterioration in stimulated insulin secretion in renal transplant recipients after 12years tacrolimus exposure. | 2017 | J. Diabetes Complicat. | pmid:28720321 |
| Theile D et al. | Clementine juice has the potential for drug interactions - In vitro comparison with grapefruit and mandarin juice. | 2017 | Eur J Pharm Sci | pmid:27890698 |
| Chen P et al. | Dynamic effects of CYP3A5 polymorphism on dose requirement and trough concentration of tacrolimus in renal transplant recipients. | 2017 | J Clin Pharm Ther | pmid:27885697 |
| Grinyó JM et al. | Safety and Efficacy Outcomes 3 Years After Switching to Belatacept From a Calcineurin Inhibitor in Kidney Transplant Recipients: Results From a Phase 2 Randomized Trial. | 2017 | Am. J. Kidney Dis. | pmid:27889299 |
| Zhang W et al. | Isoglycyrrhizinate Magnesium Enhances Hepatoprotective Effect of FK506 on Ischemia-Reperfusion Injury Through HMGB1 Inhibition in a Rat Model of Liver Transplantation. | 2017 | Transplantation | pmid:28885495 |
| Burbulla LF et al. | Dopamine oxidation mediates mitochondrial and lysosomal dysfunction in Parkinson's disease. | 2017 | Science | pmid:28882997 |