CYP3A-status is associated with blood concentration and dose-requirement of tacrolimus in heart transplant recipients

Déri, Máté; Szakál-Tóth, Zsófia; Fekete, Ferenc; Mangó, Katalin; Incze, Evelyn; Minus, Annamária; Merkely, Béla; Sax, Balázs; Monostory, Katalin

doi:10.1038/s41598-021-00942-y

Cited by 10 publications

(10 citation statements)

References 69 publications

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“…Indeed, the CYP3A5*1 allele associated with extensive CYP3A5 metabolism has been shown to occur more frequently in individuals of black race, whereas the inactive CYP3A5*3 is the predominant allele in the white population 22,23 . Genetic differences in CYP3A5 have previously been shown to greatly alter the required therapeutic tacrolimus dose in both children and adults 24–27 . Interestingly, in the absence of CYP3A5 genotype data due to the retrospective nature of the current study, the impact of race was observed to decrease, rather than increase, the elimination of tacrolimus in the current study population.…”

Section: Discussionmentioning

confidence: 59%

External assessment and refinement of a population pharmacokinetic model to guide tacrolimus dosing in pediatric heart transplant

et al. 2023

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Heart transplantation is an accepted therapeutic option for children with end-stage heart failure, congenital heart disease, and cardiomyopathy. More than 400 heart transplants are performed annually in children across the United States with improving outcomes in recent decades, though mortality from rejection, infection, and coronary vasculopathy remains significant. 1,2 Transplant survival in excess of 20 years following heart transplantation has been observed, with more than 70% of transplants expected to achieve greater than 5year survival. 1,3 Much of this success can be attributed to the use of immunosuppressive therapy to prevent the rejection of the transplanted heart.The calcineurin inhibitors (CNI) tacrolimus and cyclosporine play a vital role in immunosuppressive therapy. Currently, tacrolimus is preferred in comparison to cyclosporine, due to its improved safety

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Section: Discussionmentioning

confidence: 59%

External assessment and refinement of a population pharmacokinetic model to guide tacrolimus dosing in pediatric heart transplant

et al. 2023

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“…In considering the implementation of such an approach, it will be essential to assess potentially problematic drug-drug interaction that could alter the pharmacology of FK506 and/or MGX. The CYP3A P450 sub-family is primarily responsible for FK506 metabolism [ 57 ]. Studies are ongoing in regards to the metabolism of fosmanogepix, but trials to date have not found significant MGX CYP3A4 inhibition.…”

Section: Discussionmentioning

confidence: 99%

Calcineurin Inhibitors Synergize with Manogepix to Kill Diverse Human Fungal Pathogens

Liston

Whitesell

Kapoor

et al. 2022

JoF

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Invasive fungal infections have mortality rates of 30–90%, depending on patient co-morbidities and the causative pathogen. The frequent emergence of drug resistance reduces the efficacy of currently approved treatment options, highlighting an urgent need for antifungals with new modes of action. Addressing this need, fosmanogepix (N-phosphonooxymethylene prodrug of manogepix; MGX) is the first in a new class of gepix drugs, and acts as a broad-spectrum, orally bioavailable inhibitor of the essential fungal glycosylphosphatidylinositol (GPI) acyltransferase Gwt1. MGX inhibits the growth of diverse fungal pathogens and causes accumulation of immature GPI-anchored proteins in the fungal endoplasmic reticulum. Relevant to the ongoing clinical development of fosmanogepix, we report a synergistic, fungicidal interaction between MGX and inhibitors of the protein phosphatase calcineurin against important human fungal pathogens. To investigate this synergy further, we evaluated a library of 124 conditional expression mutants covering 95% of the genes encoding proteins involved in GPI-anchor biosynthesis or proteins predicted to be GPI-anchored. Strong negative chemical-genetic interactions between the calcineurin inhibitor FK506 and eleven GPI-anchor biosynthesis genes were identified, indicating that calcineurin signalling is required for fungal tolerance to not only MGX, but to inhibition of the GPI-anchor biosynthesis pathway more broadly. Depletion of these GPI-anchor biosynthesis genes, like MGX treatment, also exposed fungal cell wall (1→3)-β-D-glucans. Taken together, these findings suggest the increased risk of invasive fungal infections associated with use of calcineurin inhibitors as immunosuppressants may be mitigated by their synergistic fungicidal interaction with (fos)manogepix and its ability to enhance exposure of immunostimulatory glucans.

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“…According to up‐to‐date knowledge, TAC bioavailability is considerably impacted by hepatic and intestinal CYP3A‐dependent metabolism that is altered by CYP3A genetic variants. Therefore, CYP3A4 and CYP3A5 single‐nucleotide polymorphisms (SNPs) are suggested to notably cause TAC clearance interindividual variability 6 . Seven years ago, based on published evidence supporting this relationship, the CPIC published guidelines for the CYP3A5 genotype and tacrolimus dosing as the CYP3A5*3 variant allele (rs776746) results in non‐functional CYP3A5 enzymes 7 …”

Section: What Is Known and Objectivementioning

confidence: 99%

“…A single published meta‐analysis concluded that the CYP3A4*1B variant has an effect on TAC dosing in adult kidney transplant patients 9 . An important pharmacogenetic aspect is the possible linkage disequilibrium (LD) of CYP3A4*1B with CYP3A5*1 , which may lead to undifferentiated impact and the rapid clearance of TAC 6,8,9 …”

Section: What Is Known and Objectivementioning

confidence: 99%

“…9 An important pharmacogenetic aspect is the possible linkage disequilibrium (LD) of CYP3A4*1B with CYP3A5*1, which may lead to undifferentiated impact and the rapid clearance of TAC. 6,8,9 This case report describes type IB acute cellular rejection (ACR), also known as Tcell-mediated rejection, which developed on the eighth postoperative day of kidney transplantation and communicates the problem of achieving a sufficient TAC blood concentration regardless of the high dose administration.…”

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confidence: 99%

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Rapid clearance of tacrolimus blood concentration triggered by variant pharmacogenes

Šimičević

Canjuga

Zibar

et al. 2022

Clinical Pharmacy Therapeu

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Tacrolimus (TAC) is a macrocyclic lactone that acts as a calcineurin inhibitor. It is indicated as prophylaxis of transplant rejection in adult kidney or liver allograft recipients and as treatment of allograft rejection resistant to treatment with other immunosuppressive medicinal products in adult patients. Tacrolimus has significant interindividual pharmacokinetic variability and a narrow therapeutic index. Its administration should be based on clinical assessments of graft rejection prevention and toxicity in each individual patient, supported by whole blood TAC trough concentration (C 0 ) monitoring, that is therapeutic drug monitoring (TDM). 1 It has variable absorption after oral administration and first-pass metabolism, which are two major factors affecting its efficacy and safety. Metabolism principally occurs in the liver and small intestine through CYP3A4 and CYP3A5 enzymes. 1 Furthermore, TAC is the substrate for the transport efflux membrane protein P-glycoprotein (MDR1 and ABCB1) in the intestine, which regulates TAC absorption, and, consequently oral bioavailability. P-glycoprotein expressed in the liver and kidney effluxes TAC into bile and urine. 1 According to clinical practice, the targeted TAC C 0 in the blood is about 10 ng/ml, depending on individual patient characteristics, transplantation type and time after transplantation. 2 Over the last twenty years, clinical studies have clearly indicated the relationship between the pharmacokinetics of immunosuppressive agents and the genetic variability of their metabolic enzymes and transporters, which plays a significant role in their metabolism. 3-5 According to upto-date knowledge, TAC bioavailability is considerably impacted by hepatic and intestinal CYP3A-dependent metabolism that is altered by CYP3A genetic variants. Therefore, CYP3A4 and CYP3A5 singlenucleotide polymorphisms (SNPs) are suggested to notably cause TAC clearance interindividual variability. 6 Seven years ago, based on published evidence supporting this relationship, the CPIC published guidelines for the CYP3A5 genotype and tacrolimus dosing

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CYP3A-status is associated with blood concentration and dose-requirement of tacrolimus in heart transplant recipients

Cited by 10 publications

References 69 publications

External assessment and refinement of a population pharmacokinetic model to guide tacrolimus dosing in pediatric heart transplant

External assessment and refinement of a population pharmacokinetic model to guide tacrolimus dosing in pediatric heart transplant

Calcineurin Inhibitors Synergize with Manogepix to Kill Diverse Human Fungal Pathogens

Rapid clearance of tacrolimus blood concentration triggered by variant pharmacogenes

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