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ChemicalBook >> CAS DataBase List >>Tacrolimus

Tacrolimus

CAS No.
104987-11-3
Chemical Name:
Tacrolimus
Synonyms
FK-506;prograf;Protopic;Tacrolimus premix;Tacrolimus reference;imus);Tacros;CS-1172;Advagraf;L 679934
CBNumber:
CB9772399
Molecular Formula:
C44H69NO12
Molecular Weight:
804.02
MDL Number:
MFCD00869853
MOL File:
104987-11-3.mol
MSDS File:
SDS
Last updated:2024-11-26 11:58:42

Tacrolimus Properties

Melting point 113-115°C
Boiling point 871.7±75.0 °C(Predicted)
Density 1.19±0.1 g/cm3(Predicted)
Flash point 2℃
storage temp. Sealed in dry,Store in freezer, under -20°C
solubility DMSO: >3 mg/mL
form solid
pka 9.97±0.70(Predicted)
color white
optical activity +62.223 (CHCl3)
Water Solubility Freely soluble in DMSO or ethanol. Poorly soluble in water.Soluble in dimethyl sulfoxide, ethanol, water, acetone, chloroform, ethyl acetate, ether, methanol and dimethyl formamide.
BCS Class 2
Stability Stable for 2 years from date of purchase as supplied. Solutions in DMSO or ethanol may be stored at -20°C for up to 2 months.
InChIKey QJJXYPPXXYFBGM-LFZNUXCKSA-N
CAS DataBase Reference 104987-11-3(CAS DataBase Reference)
NCI Dictionary of Cancer Terms tacrolimus
FDA UNII Y5L2157C4J
NCI Drug Dictionary Prograf
ATC code D11AH01,L04AD02

Pharmacokinetic data

Protein binding >98%
Excreted unchanged in urine <1%
Volume of distribution 1300 Litres
Biological half-life 12-16 / Probably unchanged

SAFETY

Risk and Safety Statements

Symbol(GHS)  GHS hazard pictogramsGHS hazard pictograms
GHS06,GHS08
Signal word  Danger
Hazard statements  H301-H361f-H373
Precautionary statements  P202-P260-P264-P270-P280-P301+P310
Hazard Codes  T,Xi,Xn,F
Risk Statements  25-36/37/38-36-20/21/22-11
Safety Statements  45-36-26-36/37-16-60-20
RIDADR  UN 2811 6.1/PG 3
WGK Germany  3
RTECS  KD4201200
HazardClass  6.1
HS Code  29349990
Hazardous Substances Data 104987-11-3(Hazardous Substances Data)
NFPA 704
0
2 0

Tacrolimus price More Price(65)

Manufacturer Product number Product description CAS number Packaging Price Updated Buy
Sigma-Aldrich T-049 Tacrolimus solution 1.0?mg/mL in acetonitrile, ampule of 1?mL, certified reference material, Cerilliant? 104987-11-3 1mL $258 2024-03-01 Buy
Sigma-Aldrich 342500 Tacrolimus solution Immunosuppressant that blocks T cell proliferation 104987-11-3 5mg $208 2024-03-01 Buy
Alfa Aesar J63571 Tacrolimus 99+% 104987-11-3 50mg $206 2023-06-20 Buy
Alfa Aesar J63571 Tacrolimus, 99+% 104987-11-3 500mg $790 2023-06-20 Buy
Cayman Chemical 10007965 FK-506 ≥99% 104987-11-3 5mg $36 2024-03-01 Buy
Product number Packaging Price Buy
T-049 1mL $258 Buy
342500 5mg $208 Buy
J63571 50mg $206 Buy
J63571 500mg $790 Buy
10007965 5mg $36 Buy

Tacrolimus Chemical Properties,Uses,Production

Overview

Tacrolimus (also FK-506 or Fujimycin) is an immunosuppressive drug whose main use is after organ transplant to reduce the activity of the patient's immune system and so the risk of organ rejection. It is also used in a topical preparation in the treatment of severe atopic dermatitis, severe refractory uveitis after bone marrow transplants, and the skin condition vitiligo. Tacrolimus was first extracted from the fermentation broth of Streptomyces tsukuba, a soil microbe found in Tsukuba, Japan.1 The name tacrolimus is derived by taking the &lsquo;t&rsquo; for Tsukuba, the name of the mountain where the soil sample was extracted, &lsquo;acrol&rsquo; for macrolide and &lsquo;imus&rsquo; for immunosuppressant.[2] Although structurally unrelated to cyclosporin, tacrolimus shows a similar spectrum of immunosuppressive effects to this agent at the cellular and molecular level. Initial studies indicated that tacrolimus was a powerful immunosuppressant, displaying approximately 100-fold greater in vitro potency than cyclosporin in inhibiting T cell activation. Subsequent in vivo studies have shown tacrolimus to be effective both in suppressing spontaneous and experimental autoimmune disease, and in preventing allograft and xenograft rejection in animal models of organ transplantation.
Initially, tacrolimus was used for systemic immunosuppression of patients who had undergone allograft transplants to stop them from rejecting their new grafts. Soon, however, through the benefit of the serendipity of science, it was noticed that tacrolimus could produce favorable results in skin disorders in some of the patients who had undergone transplantation. The discovery of tacrolimus has thus lead to greater understanding of skin pathology, for example of atopic dermatitis.[3] Subsequently, other topical applications of tacrolimus were reported and the use of this agent in dermatology is gradually expanding.
The chemical structure of Tacrolimus
Figure 1 The chemical structure of Tacrolimus

Indication and administrations

It is used after allogenic organ transplant to reduce the activity of the patient's immune system and so the risk of organ rejection. It was first approved by the FDA in 1994 for use in liver transplantation, this has been extended to include kidney, heart, small bowel, pancreas, lung, trachea, skin, cornea, and limb transplants. It has also been used in a topical preparation in the treatment of severe atopic dermatitis.

Pharmacodynamics

Tacrolimus was absorbed topically by intact skin at rates of 3.1, 4.9 and 6.8 ng/cm2 per hour, for the 0.03%, 0.1% and 0.3% ointment concentrations, respectively.[1,2] Interestingly, tacrolimus was absorbed regardless of occlusion at significantly higher rates in damaged skin, with percutaneous penetration of 40 ng/cm2 per hour. Thus, while on topical therapy, the patient’s skin will absorb progressively lower quantities of the agent as the lesions heal. This self-regulatory property of tacrolimus is a major advantage, as it should result in fewer adverse effects over the course of treatment.[4] In one randomized, double-blind study, a 3-week course of twice daily, topically applied tacrolimus ointment 0.03%, 0.1% and 0.3% resulted in blood concentrations below 0.25 ng/mL in most patients.[5] This low systemic absorption rate is typical of the majority of clinical cases. The mean time taken to attain the highest blood concentration of tacrolimus is between 5 and 6 h after application in adults and 2.5 h in children.[6] In another study, the bioavailability of topical tacrolimus was found to be lower than 0.5%. 6 Furthermore, tacrolimus does not seem to
accumulate, either in the skin or blood, following repeated applications.[7] When taken orally, the absorption of tacrolimus is erratic and poor. The bioavailability of the drug ranges from 5% to 67%. 8 Intravenous administration of tacrolimus has resulted in the highest relative tissue concentrations in the spleen, lung and kidneys, followed by heart, skin and muscle, then fat and bone marrow and finally by liver, bone and blood.[9]
During topical administration, there is no evidence of cutaneous metabolism. Systemically, tacrolimus metabolism is mediated by the cytochrome P450 3A4 isoenzyme. It is metabolized in the liver, by CYPIA and CYPIIIA.[8] In vitro studies have identified eight different metabolites. When SMS 201-995 is administered via the intraperitoneal route, the effects of tacrolimus are enhanced and thus may enable lower doses of the latter to be used.[10]
When administered systemically, tacrolimus is eliminated in bile. It is cleared at 2.25 L/h, with a half-life of 40 h. 1 It has been found that paediatric transplant patients under 6 years old have higher weight-normalized clearance of tacrolimus, as compared with older children and adults.

Mode of action

Tacrolimus is a prodrug that enters the T cells and binds to immunophilins, forming a complex that binds competitively and blocks calmodulin.[2] This has the spin-off effect of not activating phosphatase calcineurin, which disables the dephosphorylation of NF-AT and subsequently inhibits entry of NF-AT into the nucleus, suppressing gene transcription. The final result is a decreased responsiveness of T cells to antigens.
Tacrolimus can also exert a broad range of immunomodulatory effects on various skin disorders by binding to cell surface steroid receptors and inhibiting mast cell adhesion, inhibiting the release of mediators from mast cells and basophils, decreasing intercellular adhesion molecule-1 and E-selectin lesional blood vessel expression, and downregulating the expression of IL-8 receptor and Fcε RI on Langerhans cells.[11-13] Langerhans cells are considered to be important in the pathophysiology of many inflammatory diseases.[14] There is speculation that the features involved in the activation of Langerhans cells are common with T-cell activation; in other words, there is a dependence on calcineurin in the activation of Fcε RI-specific transcription factor.[15] Tacrolimus may downregulate the expression of FcεRI. Langerhans cells and other CD1a+ skin dendritic cells are important targets of tacrolimus.[14]
It has also been suggested that tacrolimus is able to increase levels of p53.2 Topical tacrolimus has been shown to decrease cytokine mRNA levels of IL-1α, IL-1β and macrophage inflammatory protein (MIP)-2, which results in lymph node cell proliferation.16,17 Tacrolimus inhibits the transcription and release of cytokines, for example, IL-2, Il-3, IL-4, IL-5, interferon-γ, tumor necrosis factor-α, and granulocyte-monocyte colony stimulating factor.[18] Additionally, the production of T-helper 1 (Th1) and Th2 cytokines is inhibited by tacrolimus.[18]

Side effects

Owing to its potent activity as an immunosuppressant, tacrolimus has a number of adverse effects when administered orally or intravenously following transplant operations. Nephrotoxicity, represented by elevated creatinine, blood urea nitrogen, hyperkalaemia and reduction of the glomerular filtration rate, as well as vasoconstrictive effects, such as hypertension are among the most serious adverse effects.[19-22] There are also various neurotoxic adverse effects that can occur with systemic therapy. The major ones include mutism, aphasia, encephalopathy, seizures, psychosis, coma and focal disturbances. These reactions have an incidence of 5–10%. [23,24] Minor adverse effects such as headaches, transient, tremors, paraesthesias, photophobias, somnolence and insomnia occur in approximately 20% of individuals.[25,26] Systemic tacrolimus can also cause adverse reactions in the gastrointestinal system, causing diarrhoea, nausea, constipation, anorexia and vomiting. Respiratory disorders such as dyspnoea, pleural effusion and atelectasis, and cutaneous disorders, such as pruritus or a rash may develop. Other adverse effects include fever, pain, peripheral oedema, arthralgia and asthenia. Hypersensitivity reactions may also occur and may be due castor oil derivatives in the parenteral formulation.[24]

References

  1. 1 Ruzicka T, Assmann T, Homey B. Tacrolimus: The drug for the turn of the millennium? Arch Dermatol 1999; 135: 574–580.
  2. Lawrence ID. Tacrolimus (FK506): experience in dermatology. Dermatol Ther 1998; 5: 74–84.
  3. Michel G, Kemeny L, Homey B, Ruzicka T. FK506 in the treatment of inflammatory skin disease: promises and perspectives. Immunol Today 1996; 17: 106–108.
  4. Bieber T. Topical tacrolimus (FK506): a new milestone in the management of atopic dermatitis. J Allergy Clin Immunol 1998; 102: 555–557.
  5. Ruzicka T, Bieber T, Schopf E et al. A short-term trial of tacrolimus ointment for atopic dermatitis. N Engl J Med 1997; 337: 816–821.
  6. Alaiti S, Kang S, Fiedler VC et al. Tacrolimus (FK506) ointment for atopic dermatitis: a phase I study in adults and children. J Am Acad Dermatol 1998; 38: 69–76.
  7. Hanifin JM, Chan S. Biochemical and immunologic mechanisms in atopic dermatitis: New targets for emerging therapies. J Am Acad Dermatol 1999; 41: 72–77.
  8. Laurema AI, Granlund H, Reitamo S. Use of the newer immunosuppressive agents in dermatology. Bio Drugs 1997; 8: 96–106.
  9. Shirbacheh MV, Jones JW, Harralson TA et al. Pharmacokinetics of intra-arterial delivery of tacrolimus to vascularly isolated rabbit forelimb. J Pharmacol Exp Ther 1999; 289: 1196–1201.
  10. Perego C, Lattuada D, Casnici C et al. Evidence that SMS 201–995 enhances the immunosuppressive effect of FK506. Int J Immunopharmacol 1998; 20: 479–490.
  11. Fleischer AB. Treatment of atopic dermatitis: Role of tacrolimus ointment as a topical noncorticosteroid therapy. J Allergy Clin Immunol 2000; 104: S126–S130.
  12. Wollenberg A, Bieber T. FK-506/Tacrolimus. In: Burg G, Dummer RG, editors. Strategies for Immunointerventions in Dermatology. Springer-Verlag, Heidelberg, 1997: 53–57.
  13. Columbo M, Bochner BS, Marone G. Human skin mast cells express functional beta1 integrins that mediate adhesion to extracellular martix proteins. J Immunol 1995; 154: 6058–6064.
  14. Panhans-Groß A, Novak N, Kraft S et al. Human epidermal Langerhans’ cells are targets for the immnosuppressive macrolide tacrolimus (FK506). J Allergy Clin Immunol 2001; 107: 345–352.
  15. Reitamo S. Tacrolimus: a new topical immunomodulatory therapy for atopic dermatitis. J Allergy Clin Immunol 2001; 107: 445–448.
  16. Nagai H, Hiyama H, Matsuo A et al. FK-506 and cyclosporin A potentiate the IgE antibody production by contact sensitization with hapten in mice. J Pharmacol Exp Ther 1997; 283: 321–327.
  17. Homey B, Assmann T, Vohr H-W et al. Topical FK506 suppresses cytokine and costimulatory molecule expression in epidermal and local draining lymph node cells during primary skin immune responses. J Immunol 1998; 160: 5331–5340.
  18. Leung DYM, Soter NA. Cellular and immunologic mechanisms in atopic dermatitis. J Am Acad Dermatol 2001; 44: S1–S12.
  19. Nash RA, Etzioni R, Storb R et al. Tacrolimus (FK506) alone or in combination with methotrexate or methylprednisolone for the prevention of acute graft-versus-host disease after marrow transplantation from HLA-matched siblings: a single-center study. Blood 1995; 85: 3746–3753.
  20. Nielsen FT, Leyssac PP, Kemp E et al. Nephrotoxicity of FK-506 in the rat. Studies on glomerular and tubular function, and on the relationship between efficacy and toxicity. Nephrol Dial Transplant 1995; 10: 334–340.
  21. Nasr IS. Topical tacrolimus in dermatology. Clin Exp Dermatol 2000; 25: 250–254.
  22. Compendium of Pharmaceuticals Specialties, 35th edn. Webcom Limited, Toronto, 2000: 1287–1292.
  23. Manez R, Jain A, Marino IR, Thomson AW. Comparative evaluation of tacrolimus (FK506) and cyclosporin A as immunosuppressive agents. Transplant Rev 1995; 9: 63–76.
  24. Nousari Hossein C, Sragovich A, Kimyai-Asadi A et al. Mycophenolate mofetil in autoimmune and inflammatory skin disorders. J Am Acad Dermatol 1999; 40: 265–268.
  25. Ohashi Y, Minegishi M, Fujie H et al. Successful treatment of steroid-resistant severe acute GVHD with 24-h continuous infusion of FK506. Bone Marrow Transplant 1997; 19: 625–627.
  26. Jegasothy BV, Ackerman CD, Todo S et al. Tacrolimus (FK506) – A new therapeutic agent for severe recalcitrant psoriasis. Arch Dermatol 1992; 128: 781–785.

Description

FK-506 is a potent immunosuppressant in the same molecular class as cyclosporin A and rapamycin . Its mechanism of action involves the formation of a high affinity complex (Ki = 0.2 nM) with FK-506 binding protein 12 (FKBP12). This complex then inhibits the activity of the calcium/calmodulin-dependent protein phosphatase, calcineurin, leading to disruption of T cell activation. The physiological effects of FK-506 also include regulation of nitric oxide neurotoxicity, neurotransmitter release, and regulation of Ca2+ release via the ryanodine and inositol-(1,4,5)-trisphosphate (IP3) receptors. In the latter case, FKBP12 forms a tight complex with both ryanodine and IP3 receptors which can be disrupted by FK-506, thereby rendering the receptors leaky to Ca2+.

Description

Tacrolimus, isolated from the microorganism Streptomyces tsukubaensis, is a macrolide immunosuppressant developed by Fujisawa for organ transplantation. It displays similar but more potent immunosuppressive activity than cyclosporin. It inhibits both cell mediated and humoral immune responses. In animal models of organ transplantation, tacrolimus has been shown to prolong survival of hepatic, renal, cardiac, small intestine, pancreatic and skin allografts and to reverse cardiac and renal allograft rejection. It has been used effectively in humans as rescue or primary immunosuppressant therapy in liver or kidney transplantation. Compared to cyclosporin, tacrolimus causes reduced incidence of infectious complications and of hypertension and hypercholesterolemia for the allograft recipients. In common with cyclosporin, tacrolimus binds with high affinity to a family of cytoplasmic immunosuppressant binding proteins, the immunophilins. This tight complex is proposed as the biologically active moiety that interacts with intracellular molecules involved in signal transduction.It inhibits phosphatase activity of calcineurin, an action that may impair the generation and/or activation of nuclear transcription factors required for lymphokine (particularly interleukin-2) gene expression. Tacrolimus has also been reported to have potential in multiple sclerosis, psoriasis, rheumatoid arthritis and uveitis associated with Behcet‘s disease.

Chemical Properties

White Crystalline Solid

Originator

Fujisawa (Japan)

Uses

Tacrolimus (fujimycin) was discovered as a potent inhibitor of IL2 production in a targeted search for novel immunosuppressants. Tacrolimus acts by blocking T cell proliferation in vitro by inhibiting the generation of several lymphokines, notably the original target IL-2. Tacrolimus inhibits the activity of FK-506 binding protein, Ca2+-dependent phosphatase and calcineurin, and activates NF-κB through phosphorylation and degradation of IκBα.

Uses

FK-506 (Tacrolimus) is a macrolide immunosuppressive drug that is mainly used after allogeneic organ transplant to reduce the activity of the patient's immune system

Uses

For use after allogenic organ transplant to reduce the activity of the patient's immune system and so the risk of organ rejection. It was first approved by the FDA in 1994 for use in liver transplantation, this has been extended to include kidney, heart,

Uses

treatment of Cushing's syndrome

Uses

An immunosuppressant that blocks T cell proliferation in vitro by inhibiting the generation of several lymphokines, especially IL-2. Shown to inhibit the activity of FK-506 binding protein, thereby reversing its effects on sarcoplasmic reticulum Ca+2 release.

Indications

Tacrolimus is a macrolide lactone originally derived from Streptomyces tsukubaensis. Although structurally unrelated to cyclosporine, tacrolimus has a very similar mechanism of action; that is, it blocks the production of proinflammatory cytokines by T lymphocytes by inhibiting calcineurin.Tacrolimus, however, appears to be 10 to 100 times as potent as an immunosuppressive. Oral tacrolimus (FK506) is used for prevention of organ rejection in recipients of renal and hepatic transplants.

Definition

ChEBI: Tacrolimus is a macrolide containing a 23-membered lactone ring, originally isolated from the fermentation broth of a Japanese soil sample that contained the bacteria Streptomyces tsukubaensis.

Indications

Tacrolimus (Prograf) is a second-generation immunosuppressive agent that has been approved for use in liver transplantation. Its efficacy for other transplantations is being evaluated. It has properties similar to those of cyclosporine except that weight for weight it is 10 to 100 times more potent. It is a macrolide antibiotic that selectively inhibits transcription of a specific set of lymphokine genes in T lymphocytes (e.g., IL-2, IL-4, and interferon-) and binds to cytoplasmic proteins in lymphocytes. Although the binding proteins (cytophilins) for cyclosporine and tacrolimus are different, they share similar functions in that the cytophilins are important for the intracellular folding of proteins. It is speculated that these proteins are important in regulating gene expression in T lymphocytes and that both drugs somehow interfere in this process.
Absorption of tacrolimus from the gastrointestinal (GI) tract is variable. It is extensively metabolized in the liver and excreted in the urine.As with cyclosporine, nephrotoxicity is its principal side effect.

Manufacturing Process

The novel 17-allyl-1,14-dihydroxy-12-[2-(4-hydroxy-3-methoxycyclohexyl)-1- methylvinyl]-23,25-dimethoxy-13,19,21,27-tetramethyl-11,28-dioxa-4- azatrcyclo[22.3.1.04,9]octacos-18-ene-2,3,10,16-tetraone (FR-900506), substance can be produced by culturing a FR-900506 substance(s)-producing strain belonging to the genus Streptomyces (e.g. Streptomyces tsukubaensis No. 9993, FERM BP-927) in a nutrient medium.
Fermentation
A culture medium (160 ml) containing glycerin (1%), corn starch (1%), glucose (0.5%), cottonseed meal (1%), dried yeast (0.5%), corn steep liquor (0.5%) and calcium carbonate (0.2%) (adjusted to pH 6.5) was poured into each of ten 500 ml-Erlenmeyer flasks and sterilized at 120°C for 30 min. A loopful of slant culture of Streptomyces tsukubaensis No. 9993 was inoculated to each of the medium and cultured at 30°C for 4 days on a rotary shaker. The resultant culture was inoculated to a medium containing soluble starch (5%), peanut powder (0.5%), dried yeast (0.5%), gluten meal (0.5%), calcium carbonate (0.1%) and Adekanol (deforming agent, Trade Mark, maker Asasi Denka Co.) (0.1%) (150 liters) in a 200-liter jar-fermentor, which had been sterilized at 120°C for 20 min in advance, and cultured at 30C for 4 days under aeration of 150 liters/minutes and agitation of 250 rpm.
Isolation and Purification
The cultured broth thus obtained was filtered with an aid of diatomaseous earth (5 kg). The mycelial cake was extracted with acetone (50 liters), yielding 50 liters of the extract. The acetone extract from mycelium and the filtrate (135 L) were combined and passed through a column of a non-ionic adsorption resin "Diaion HP-20" (Trade Mark, maker Mitsubishi Chemical Industries Ltd.) (10 L). After washing with water (30 L) and 50 % aqueous acetone (30 L), elution was carried out with 75 aqueous acetone. The eluate (30 liters) was evaporated under reduced pressure to give residual water (2 L). This residue was extracted with ethyl acetate (2 L) three times. The ethyl acetate extract was concentrated under reduced pressure to give an oily residue. The oily residue was mixed with twice weight of acidic silica gel (special silica gel grade 12, maker Fuji Devison Co.), and this mixture was slurried in ethyl acetate. After evaporating the solvent, the resultant dry powder was subjected to column chromatography of the same acidic silica gel (800 ml) which was packed with n-hexane. The column was developed with nhexane (3 L), a mixture of n-hexane and ethyl acetate (4:1 v/v, 3 L) and ethyl acetate (3 L). The fractions containing the object compound were collected and concentrated under reduced pressure to give an oily residue. The oily residue was dissolved in a mixture of n-hexane and ethyl acetate (1:1 v/v, 30 ml) and subjected to column chromatography of silica gel (maker Merck Co., Ltd. 230-400 mesh) (500 ml) packed with the same solvents system. Elution was carried out with a mixture of n-hexane and ethyl acetate (1:1 v/v, 2 liters and 1:2 v/v, 1.5 L) and ethyl acetate (1.5 L). Fractions containing the first object compound were collected and concentrated under reduced pressure to give crude FR-900506 substance (3 g) in the form of yellowish powder.
This powder of the FR-900506 substance could be transformed into a form of white crystals by recrystallization thereof from acetonitrile. Melting point: 127°-129°C.

brand name

Prograf (Astellas); Protopic (Astellas).

Therapeutic Function

Immunosuppressive

General Description

Immunosuppressant that blocks T-cell proliferation in vitro by inhibiting the generation of several lymphokines, especially IL-2. Shown to inhibit the activity of FK-506 Binding Protein, thereby reversing its effects on sarcoplamic reticulum Ca2+ release. Shown to inhibit the Ca2+-dependent phosphatase, Calcineurin (Cat. No. 539565), as well as Na+-K+-ATPase in nephron segments. Also shown to inhibit aldosterone-induced synthesis of Giα-3 protein.

Biochem/physiol Actions

Product does not compete with ATP.

Clinical Use

A topical formulation (Protopic) has recently been approved for treatment of moderate to severe atopic dermatitis in children and adults who have not responded to other therapies. Levels of systemic absorption are low even when applied to a relatively large body surface area.

Side effects

Local irritant reactions (burning, stinging, erythema) are a common side effect, but these usually resolve within the first few days of treatment. The major benefit of topical tacrolimus over topical corticosteroids is that tacrolimus does not cause atrophy, striae, or telangiectasia, even with chronic use.

Veterinary Drugs and Treatments

Tacrolimus has recently been studied at the University of Tennessee College of Veterinary Medicine where investigators found it equally effective as cyclosporine and effective for cyclosporine-resistant cases of KCS. It exerts its effects through a mechanism similar to that of cyclosporine, however exact mechanisms of action in causing tear production are still being determined.

Veterinary Drugs and Treatments

Tacrolimus ointment may be of benefit in veterinary patients in the adjunctive treatment of atopic dermatitis, discoid lupus erythematosus, pemphigus erythematosus or foliaceous, pinnal vascular disease, alopecia areata, vitiligo and for perianal fistulas (terminal phase or maintenance treatment after cyclosporine therapy). Unlike topical corticosteroids, tacrolimus or pimecrolimus do not have atrophogenic or metabolic effects associated with long-term or large area treatment.
Tacrolimus acts similarly as cyclosporine, namely inhibiting T-lymphocyte activation primarily by inhibiting the phosphatase activity of calcineurin. It also inhibits the release of inflammatory cytokines and mediators from mast cells and basophils.

in vitro

tacrolimus (fk506) has been reported to inhibit the interleukin 2(il-2) production and the response of mixed lymphocyte culture. in addition, tacrolimus (fk506) added to the cell cultures has been revealed to inhibit murine or human mixed lymphocyte reactivity and the generation of cytotoxic t cells. furermor, tacrolimus (fk506) has also been reported to dose-dependently suppress the production of various cytokines including il-2, il-3, il-4, and γ-interferon, in response to different stimulis. besides, tacrolimus has shown its efficacy in the prevention of allograft rejection in animal transplant models. tacrolimus has been found to be significantly efficient in experimental hepatic allografts, and has hepatotrophic properties [1].

target

Immunology & Inflammation related

Drug interactions

Potentially hazardous interactions with other drugs
Ciclosporin: may increase the half-life of ciclosporin and exacerbate any toxic effects. The two should not be prescribed concomitantly. Care should be taken when converting from ciclosporin to tacrolimus.
Tacrolimus levels increased by: amlodipine, atazanavir, basiliximab, boceprevir, bromocriptine, chloramphenicol, cimetidine, cortisone, danazol, dapsone, diltiazem, ergotamine, ethinyloestradiol, felodipine, fosamprenavir, gestodene, grapefruit juice, imidazole and triazole antifungals, lidocaine, lansoprazole, possibly levofloxacin, macrolides, midazolam, nicardipine, nifedipine, norethisterone, omeprazole, pantoprazole, posaconazole, ranolazine; ritonavir, saquinavir, Chinese herbal remedies containing extracts of Schisandra sphenanthera, tamoxifen, theophylline, verapamil and voriconazole.
Tacrolimus levels decreased by: carbamazepine, caspofungin, fosphenytoin, isoniazid, phenobarbital, phenytoin (fosphenytoin and phenytoin levels possibly increased), primidone, rifampicin, possibly rifabutin and St John’s wort.
Increased nephrotoxicity with: aminoglycosides, amphotericin, NSAIDs, sulfamethoxazole, trimethoprim and vancomycin.
Increased risk of hyperkalaemia with: potassiumsparing-diuretics and potassium salts.
Anticoagulants: possibly increases concentration of dabigatran - avoid.
Antipsychotics: avoid with droperidol, increased risk of ventricular arrhythmias.
Antivirals: increased risk of nephrotoxicity with acyclovir, ganciclovir, valaciclovir and valganciclovir; concentration affected by efavirenz; concentration of both drugs increased with telaprevir; concomitant use with dasabuvir and ombitasvir/paritaprevir/ ritonavir is not recommended unless the benefits outweigh the risks, if used concomitantly, tacrolimus should not be administered on the day dasabuvir and ombitasvir/paritaprevir/ritonavir are initiated. Beginning the day after dasabuvir and ombitasvir/ paritaprevir/ritonavir are initiated; reinitiate tacrolimus at a reduced dose based on tacrolimus levels. The recommended tacrolimus dosing is 0.5 mg every 7 days, monitor levels at initiation and throughout treatment.
Clotrimazole: more than doubles the bioavailability of tacrolimus (US-based researchers report that concomitant clotrimazole substantially increases the relative oral bioavailability of tacrolimus in renal transplant recipients. Inpharma. 2005 Dec 10; 1517: 15).
Cytotoxics: concentration of afatinib possibly increased - separate dose by 6-12 hours; use crizotinib with caution; concentration increased by imatinib.

Metabolism

Tacrolimus is extensively bound to erythrocytes in the blood, and variations in red cell binding account for much of the variability in pharmacokinetics. It is extensively metabolised in the liver, mainly by cytochrome P450 isoenzyme CYP3A4, and excreted, primarily in bile, almost entirely as metabolites. Considerable metabolism also occurs in the intestinal wall.
There are several metabolites identified. Only one of these has been shown in vitro to have immunosuppressive activity similar to that of tacrolimus. The other metabolites have only weak or no immunosuppressive activity. In systemic circulation only one of the inactive metabolites is present at low concentrations. Therefore, metabolites do not contribute to pharmacological activity of tacrolimus.

storage

-20°C

References

1) Yu et al. (2006), Effects of cyclosporine A, FK506 and rapamycin on calcineurin phosphatase activity in mouse brain; IUBMB Life, 58 429

118977-96-1
104987-11-3
Synthesis of Tacrolimus from 15,19-Epoxy-3H-pyrido[2,1-c][1,4]oxaazacyclotricosine-1,7,20,21(4H,23H)-tetrone, 5,6,8,11,12,13,14,15,16,17,18,19,24,25,26,26a-hexadecahydro-19-hydroxy-14,16-dimethoxy-3-[2-[3-methoxy-4-[(triethylsilyl)oxy]cyclohexyl]-1-methylethenyl]-4,10,12,18-tetramethyl-8-(2-propenyl)-5-[(triethylsilyl)oxy]-, [3S-[3R*[E(1S*,3S*,4S*)],4R*,5R*,8S*,9E,12R*,14R*,15S*,16R*,18S*,19S*,26aR*]]-
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View Lastest Price from Tacrolimus manufacturers

Image Update time Product Price Min. Order Purity Supply Ability Manufacturer
Tacrolimus Powder pictures 2024-12-20 Tacrolimus Powder
104987-11-3
US $150.00 / kg 1kg 99% 500kg Hebei Zhuanglai Chemical Trading Co Ltd
Tacrolimus pictures 2024-12-20 Tacrolimus
104987-11-3
US $150.00 / kg 1kg 99% 500kg Hebei Zhuanglai Chemical Trading Co Ltd
Tacrolimus pictures 2024-12-20 Tacrolimus
104987-11-3
US $0.00 / Kg/Bag 2Kg/Bag USP 20 tons Sinoway Industrial co., ltd.
  • Tacrolimus Powder pictures
  • Tacrolimus Powder
    104987-11-3
  • US $150.00 / kg
  • 99%
  • Hebei Zhuanglai Chemical Trading Co Ltd
  • Tacrolimus pictures
  • Tacrolimus
    104987-11-3
  • US $150.00 / kg
  • 99%
  • Hebei Zhuanglai Chemical Trading Co Ltd
  • Tacrolimus pictures
  • Tacrolimus
    104987-11-3
  • US $0.00 / Kg/Bag
  • USP
  • Sinoway Industrial co., ltd.

Tacrolimus Spectrum

(2-propenyl)-,(3s-(3r*(e(1s*,3s*,4s*)),4s*,5r*,8s*,9e,12r*,14r*,15s*,16r*,18s* ,19s*,26ar*))- 16-dimethoxy-4,10,12,18-tetramethyl-8-3-(2-(4-hydroxy-3-methoxycyclohexyl)-1 15,19-Epoxy-3H-pyrido[2,1-c][1,4]oxaazacyclotricosine-1,7,20,21(4H,23H)-tetrone, 5,6,8,11,12,13,14,15,16,17,18,19,24,25,26,26a-hexadecahydro-5,19-dihydroxy-3-[2-(4-hydroxy-3-methoxycyclohexyl)-1-methylethenyl]-14,16-dimethoxy-4,10,12,18-tetramethyl-8-(2-propenyl)-, [3S-[3R*[E(1S*,3S*,4S*)],4S*,5R*,8S*,9E,12R*,14R*,15S*,16R*,18S*,19S*,26aR*]]- L 679934 FK-506:FR-900506 Fujimycin Prozraf Tacrolimus,micronisedandpharmagrade REF DUPL: Tacrolimus FK506(Tacrolimus) Advagraf TacroBell TacroliMus-13CD2/FK-506-13CD2 (1R,9S,12S,13R,14S,17R,18E,21S,23S,24R,25S,27R)-1,14-dihydroxy-12-[(1E)-1-[(1R,3R,4R)-4-hydroxy-3-Methoxycyclohexyl]prop-1-en-2-yl]-23,25-diMethoxy-13,19,21,27-tetraMethyl-17-(prop-2-en-1-yl)-11,28-dioxa-4-azatricyclo[22.3.1.0^{4,9}]octacos-18-ene-2,3,10 FujiMycin, FK506, FR900506, Tskubaenolide (3S,4R,5S,8R,9E...5,6,8,11,12,13,14,15,16,17,18,19,24,25,26,26a-hexadecahydro-5,19-dihydroxy-3-[(1E)-2-[(1R,3R,4R)-4-hydroxy-3-methoxycyclohexyl]-1-methylethenyl]-14,16-dimethoxy-4,10,12,18-tetramethyl-8-(2-propen-1-yl)-15,19-epoxy-3H-pyrido[2,1-c][1,4]oxaazacyclotricosine-1,7,20,21(4H,23H)-tetrone (3S,4R,5S,8R,9E,12S,14S,15R,16S,18R,19R,26aS)-5,6,8,11,12,13,14,15,16,17,18,19,24,25,26,26a-Hexadecahydro-5,19-dihydroxy-3-[(1E)-2-[(1R,3R,4R)-4-hydroxy-3-methoxycyclohexyl]-1-methylethenyl]-14,16-dimethoxy-4,10,12,18-tetramethyl-8-(2-propen-1-yl)-15,19-e Tacrolimus solution tacrolimus (anhydrous) 19-epoxy-3h-pyrido(2,1-c)(1,4)oxaazacyclotricosine-1,7,20,21(4h,23h)-tetrone,5,6,8,11,12,13,14,15,16,17,18,19,24,25,26,26a-hexadecahydro-5,19-dihydroxy-3-(2-(4-hydroxy-3-methoxycyclohexyl)-14,16-dim 6,8,11,12,13,14,15,16,17,18,19,24,25,26,26a-hexadecahydro-5,19-dihydroxy-5 fr900506 tsukubaenolide FK-506, 99+% Fujimycin TACROLIMUS Tacrolimus, Prograf, FK506 Tacrolimus, 98.5% Tacrolimus (FK506)(free base) (3S,4R,5S,8R,9E...5,6,8,11,12,13,14,15,16,17,18,19,24,25,26,26a-hexadecahydro-5,19-dihydroxy-3-[(1E)-2-[(1R,3R,4R)-4-hydroxy-3-methoxycyclohexyl]-1-methylethenyl]-14,16-dimethoxy-4,10,12,18-tetramethyl-8-(2-propen-1-yl)-15,19-e FK-506, Streptomyces sp. - CAS 104987-11-3 - Calbiochem Cacrolimus FUJIMYCIN;PROGRAF;FK506;TACROLIMUS CS-1172 Tacrolimus, ≥98%(HPLC) Tacros Tacrolimus RS FK-506 (TacroL imus) 15,19-Epoxy-3H-pyrido[2,1-c][1,4]oxaazacyclotricosine-1,7,20,21(4H,23H)-tetrone, 5,6,8,11,12,13,14,15,16,17,18,19,24,25,26,26a-hexadecahydro-5,19-dihydroxy-3-[(1E)-2-[(1R,3R,4R)-4-hydroxy-3-methoxycyclohexyl]-1-methylethenyl]-14,16-dimethoxy-4,10,12,18-tetramethyl-8-(2-propen-1-yl)-, (3S,4R,5S,8R,9E... Tacrolimus USP/EP/BP Tacrolimus Impurity 41 Tacrolimus Impurity 42 Tacro musli Tacrolimus (FK-506, Fujimycin, FR900506, Prograf) API Tacrolimus TacrolimusQ: What is Tacrolimus Q: What is the CAS Number of Tacrolimus Q: What is the storage condition of Tacrolimus Q: What are the applications of Tacrolimus Protopic Tacrolimus premix prograf FK-506 Tacrolimus reference Tarcolimus/FK-506 (1R,9S,12S,13R,14S,17R,21S,23S,24R,25S,27R)-1,14-dihydroxy-12-{1-[(1R,3R,4R)-4-hydroxy-3-methoxycyclohexyl]prop-1-en-2-yl}-23,25-dimethoxy-13,19,21,27-tetramethyl-17-(prop-2-en-1-yl)-11,28-dioxa-4-azatricyclo[22.3.1.0] octacos-18-ene-2,3,10,16-tetrone (1R,9S,12S,13R,14S,17R,21S,23S,24R,25S,27R)-1,14-DIHYDROXY-12-{1-[(1R,3R,4R)-4-HYDROXY-3-METHOXYCYCLOHEXYL]PROP-1-EN-2-YL}-23,25-DIMETHOXY-13,19,21,27-TETRAMETHYL-17-(PROP-2-EN-1-YL)-11,28-DIOXA-4-AZATRICYCLO[22.3.1.0 OCTACOS-18-ENE-2,3,10,16-TETRONE FKBP,FK506-binding protein,Inhibitor,Phosphatase,Bacterial,Antibiotic,FK-506,FR 900506,inhibit,Tacrolimus,Autophagy,FK 506,FR-900506 (-)-FK 506 Tacrolimus-[13C,d4] in Acetonitrile