Details
Stereochemistry | ABSOLUTE |
Molecular Formula | C51H79NO13 |
Molecular Weight | 914.1719 |
Optical Activity | UNSPECIFIED |
Defined Stereocenters | 15 / 15 |
E/Z Centers | 0 |
Charge | 0 |
SHOW SMILES / InChI
SMILES
[H][C@@]12CC[C@@H](C)[C@@](O)(O1)C(=O)C(=O)N3CCCC[C@@]3([H])C(=O)O[C@@]([H])(CC(=O)[C@H](C)\C=C(C)\[C@@H](O)[C@@H](OC)C(=O)[C@H](C)C[C@H](C)\C=C\C=C\C=C(C)\[C@H](C2)OC)[C@H](C)C[C@@H]4CC[C@@H](O)[C@@H](C4)OC
InChI
InChIKey=QFJCIRLUMZQUOT-HPLJOQBZSA-N
InChI=1S/C51H79NO13/c1-30-16-12-11-13-17-31(2)42(61-8)28-38-21-19-36(7)51(60,65-38)48(57)49(58)52-23-15-14-18-39(52)50(59)64-43(33(4)26-37-20-22-40(53)44(27-37)62-9)29-41(54)32(3)25-35(6)46(56)47(63-10)45(55)34(5)24-30/h11-13,16-17,25,30,32-34,36-40,42-44,46-47,53,56,60H,14-15,18-24,26-29H2,1-10H3/b13-11+,16-12+,31-17+,35-25+/t30-,32-,33-,34-,36-,37+,38+,39+,40-,42+,43+,44-,46-,47+,51-/m1/s1
DescriptionCurator's Comment: description was created based on several sources, including
https://www.ncbi.nlm.nih.gov/pubmed/12742462
https://www.ncbi.nlm.nih.gov/pubmed/20005306
Curator's Comment: description was created based on several sources, including
https://www.ncbi.nlm.nih.gov/pubmed/12742462
https://www.ncbi.nlm.nih.gov/pubmed/20005306
Sirolimus is the USAN-assigned generic name for the natural product rapamycin. Sirolimus is produced by a strain of Streptomyces hygroscopicus, isolated from a soil sample collected from Rapa Nui commonly known as Easter Island. Although sirolimus was isolated as an antifungal agent with potent anticandida activity, subsequent studies revealed impressive antitumor and immunosuppressive activities. Sirolimus demonstrates activity against several murine tumors, such as B16 43 melanocarcinoma, Colon 26 tumor, EM ependymoblastoma, and mammary and colon 38 solid tumors. Demonstration of the potent immunosuppressive activity of sirolimus in animal models of organ transplantation led to clinical trials and subsequent approval by regulatory authorities for prophylaxis of renal graft rejection. Interest in sirolimus as an immunosuppressive therapy in organ transplantation derives from its unique mechanism of action, its unique side-effect profile, and its ability to synergize with other immunosuppressive agents. It is used in medicine to prevent organ transplant rejection and to treat lymphangioleiomyomatosis. Sirolimus inhibits T-lymphocyte activation and proliferation that occurs in response to antigenic and cytokine (Interleukin [IL]-2, IL-4, and IL-15) stimulation by a mechanism that is distinct from that of other immunosuppressants. Sirolimus also inhibits antibody production. In cells, sirolimus binds to the immunophilin, FK Binding Protein-12 (FKBP-12), to generate an immunosuppressive complex. This complex blocks the activation of the cell-cycle-specific kinase, TOR. The downstream events that follow the inactivation of TOR result in the blockage of cell-cycle progression at the juncture of G1 and S phase. Rapamycin/FKBP12 efficiently inhibit some, but not all, functions of mTOR and hence much interest has been placed in the development of drugs that target the kinase activity of mTOR directly. Studies in experimental models show that sirolimus prolongs allograft (kidney, heart, skin, islet, small bowel, pancreatico-duodenal, and bone marrow) survival in mice, rats, pigs, and/or primates. Sirolimus reverses acute rejection of heart and kidney allografts in rats and prolongs the graft survival in presensitized rats. In some studies, the immunosuppressive effect of sirolimus lasts up to 6 months after discontinuation of therapy. This tolerization effect is alloantigen-specific. In rodent models of autoimmune disease, sirolimus suppresses immune-mediated events associated with systemic lupus erythematosus, collagen-induced arthritis, autoimmune type I diabetes, autoimmune myocarditis, experimental allergic encephalomyelitis, graft-versus-host disease, and autoimmune uveoretinitis. Lymphangioleiomyomatosis involves lung tissue infiltration with smooth muscle-like cells that harbor inactivating mutations of the tuberous sclerosis complex (TSC) gene (LAM cells). Loss of TSC gene function activates the mTOR signaling pathway, resulting in cellular proliferation and release of lymphangiogenic growth factors. Sirolimus inhibits the activated mTOR pathway and thus the proliferation of LAM cells.
Originator
Sources: https://www.ncbi.nlm.nih.gov/pubmed/1102509
Curator's Comment: Rapamycin is a natural product isolated from Streptomyces hygroscopicus, found on the island of Rapa Nui in 1972
Approval Year
Targets
Primary Target | Pharmacology | Condition | Potency |
---|---|---|---|
Target ID: CHEMBL1902 Sources: https://www.ncbi.nlm.nih.gov/pubmed/12742462 |
Conditions
Condition | Modality | Targets | Highest Phase | Product |
---|---|---|---|---|
Palliative | RAPAMUNE Approved UseRapamune is an immunosuppressive agent indicated for the prophylaxis of organ rejection in patients aged ≥13 years receiving renal transplants. Patients at low- to moderate-immunologic risk: Use initially with cyclosporine (CsA) and corticosteroids. CsA withdrawal is recommended 2-4 months after transplantation ( 1.1 ). Patients at high-immunologic risk: Use in combination with cyclosporine and corticosteroids for the first 12 months following transplantation ( 1.1 ). Safety and efficacy of CsA withdrawal has not been established in high risk patients ( 1.1 , 1.2 , 14.3 ). Therapeutic drug monitoring is recommended for all patients ( 2.3 , 5.14 ). 1.1 Prophylaxis of Organ Rejection in Renal Transplantation Rapamune (sirolimus) is indicated for the prophylaxis of organ rejection in patients aged 13 years or older receiving renal transplants. Therapeutic drug monitoring is recommended for all patients receiving Rapamune [see Dosage and Administration (2.3), Warnings and Precautions (5.14) Launch Date1999 |
Cmax
Value | Dose | Co-administered | Analyte | Population |
---|---|---|---|---|
78.2 ng/mL |
15 mg single, oral dose: 15 mg route of administration: Oral experiment type: SINGLE co-administered: |
SIROLIMUS plasma | Homo sapiens population: HEALTHY age: ADULT sex: FEMALE / MALE food status: UNKNOWN |
AUC
Value | Dose | Co-administered | Analyte | Population |
---|---|---|---|---|
970 ng × h/mL |
15 mg single, oral dose: 15 mg route of administration: Oral experiment type: SINGLE co-administered: |
SIROLIMUS plasma | Homo sapiens population: HEALTHY age: ADULT sex: FEMALE / MALE food status: UNKNOWN |
T1/2
Value | Dose | Co-administered | Analyte | Population |
---|---|---|---|---|
79 h |
15 mg single, oral dose: 15 mg route of administration: Oral experiment type: SINGLE co-administered: |
SIROLIMUS plasma | Homo sapiens population: HEALTHY age: ADULT sex: FEMALE / MALE food status: UNKNOWN |
Funbound
Value | Dose | Co-administered | Analyte | Population |
---|---|---|---|---|
6% |
15 mg single, oral dose: 15 mg route of administration: Oral experiment type: SINGLE co-administered: |
SIROLIMUS plasma | Homo sapiens population: HEALTHY age: ADULT sex: FEMALE / MALE food status: UNKNOWN |
Doses
Dose | Population | Adverse events |
---|---|---|
40 mg single, oral Highest studied dose |
healthy, 48.5 years (range: 40-63 years) n = 8 Health Status: healthy Age Group: 48.5 years (range: 40-63 years) Sex: M+F Population Size: 8 Sources: |
Other AEs: Mouth ulceration, Headache... Other AEs: Mouth ulceration (moderate, 1 patient) Sources: Headache (1 patient) Alanine aminotransferase increase (1 patient) |
6 mg multiple, oral (starting) Recommended Dose: 6 mg Route: oral Route: multiple Dose: 6 mg Sources: |
unhealthy Health Status: unhealthy Condition: LIVER TRANSPLANTATION | LUNG TRANSPLANTATION Sources: |
Other AEs: Immunosuppression, Hepatic artery thrombosis... Other AEs: Immunosuppression Sources: Hepatic artery thrombosis Dehiscence |
AEs
AE | Significance | Dose | Population |
---|---|---|---|
Alanine aminotransferase increase | 1 patient | 40 mg single, oral Highest studied dose |
healthy, 48.5 years (range: 40-63 years) n = 8 Health Status: healthy Age Group: 48.5 years (range: 40-63 years) Sex: M+F Population Size: 8 Sources: |
Headache | 1 patient | 40 mg single, oral Highest studied dose |
healthy, 48.5 years (range: 40-63 years) n = 8 Health Status: healthy Age Group: 48.5 years (range: 40-63 years) Sex: M+F Population Size: 8 Sources: |
Mouth ulceration | moderate, 1 patient | 40 mg single, oral Highest studied dose |
healthy, 48.5 years (range: 40-63 years) n = 8 Health Status: healthy Age Group: 48.5 years (range: 40-63 years) Sex: M+F Population Size: 8 Sources: |
Dehiscence | 6 mg multiple, oral (starting) Recommended Dose: 6 mg Route: oral Route: multiple Dose: 6 mg Sources: |
unhealthy Health Status: unhealthy Condition: LIVER TRANSPLANTATION | LUNG TRANSPLANTATION Sources: |
|
Hepatic artery thrombosis | 6 mg multiple, oral (starting) Recommended Dose: 6 mg Route: oral Route: multiple Dose: 6 mg Sources: |
unhealthy Health Status: unhealthy Condition: LIVER TRANSPLANTATION | LUNG TRANSPLANTATION Sources: |
|
Immunosuppression | 6 mg multiple, oral (starting) Recommended Dose: 6 mg Route: oral Route: multiple Dose: 6 mg Sources: |
unhealthy Health Status: unhealthy Condition: LIVER TRANSPLANTATION | LUNG TRANSPLANTATION Sources: |
Overview
CYP3A4 | CYP2C9 | CYP2D6 | hERG |
---|---|---|---|
OverviewOther
Other Inhibitor | Other Substrate | Other Inducer |
---|---|---|
Drug as perpetrator
Target | Modality | Activity | Metabolite | Clinical evidence |
---|---|---|---|---|
Sources: https://pubmed.ncbi.nlm.nih.gov/10504034/ Page: 5.0 |
no | |||
Page: 1.0 |
yes [EC50 3.6 uM] | |||
Page: 4.0 |
yes [IC50 1.3 uM] | |||
Page: 4.0 |
yes [IC50 11.2 uM] | |||
Page: 4.0 |
yes [IC50 9.8 uM] | |||
yes | ||||
yes | ||||
yes | ||||
yes |
Drug as victim
Target | Modality | Activity | Metabolite | Clinical evidence |
---|---|---|---|---|
Page: 1.0 |
no | |||
Sources: https://www.accessdata.fda.gov/drugsatfda_docs/label/2020/021083s067,021110s085lbl.pdf#page=27 Page: 19, 27-29 |
yes | yes (co-administration study) Comment: administered with cyclosporine: mean Cmax and AUC were increased by 512% and 148%, respectively, relative to administration of sirolimus alone. However, when given 4 hours after cyclosporine administration, sirolimus Cmax and AUC were both increased by only 33% compared with administration of sirolimus alone; administered with diltiazem: Sirolimus Cmax, tmax, and AUC were increased 1.4-, 1.3-, and 1.6-fold, respectively. Sirolimus did not affect the pharmacokinetics of either diltiazem or its metabolites; administered with erythromycin: Sirolimus Cmax and AUC were increased 4.4- and 4.2-fold respectively and tmax was increased by 0.4 hr. Sirolimus did not affect the pharmacokinetics of either diltiazem or its metabolites; administered with ketoconazole; increases in sirolimus Cmax, tmax, and AUC of 4.3-fold, 38%, and 10.9-fold. Single-dose sirolimus did not affect steady-state 12-hour plasma ketoconazole concentrations; administered with rifampin; decreased sirolimus AUC and Cmax by about 82% and 71%, respectively; administered with verapamil: l. Sirolimus Cmax and AUC were increased 2.3- and 2.2-fold, respectively. Cmax and AUC of the pharmacologically active S(-) enantiomer of verapamil were both increased 1.5-fold and tmax was decreased by 1.2 hr; Sources: https://www.accessdata.fda.gov/drugsatfda_docs/label/2020/021083s067,021110s085lbl.pdf#page=27 Page: 19, 27-29 |
||
Sources: https://www.accessdata.fda.gov/drugsatfda_docs/label/2020/021083s067,021110s085lbl.pdf#page=27 Page: 19, 27-29 |
yes | yes (co-administration study) Comment: administered with cyclosporine: mean Cmax and AUC were increased by 512% and 148%, respectively, relative to administration of sirolimus alone. However, when given 4 hours after cyclosporine administration, sirolimus Cmax and AUC were both increased by only 33% compared with administration of sirolimus alone; administered with diltiazem: Sirolimus Cmax, tmax, and AUC were increased 1.4-, 1.3-, and 1.6-fold, respectively. Sirolimus did not affect the pharmacokinetics of either diltiazem or its metabolites; administered with erythromycin: Sirolimus Cmax and AUC were increased 4.4- and 4.2-fold respectively and tmax was increased by 0.4 hr. Sirolimus did not affect the pharmacokinetics of either diltiazem or its metabolites; administered with ketoconazole; increases in sirolimus Cmax, tmax, and AUC of 4.3-fold, 38%, and 10.9-fold. Single-dose sirolimus did not affect steady-state 12-hour plasma ketoconazole concentrations; administered with rifampin; decreased sirolimus AUC and Cmax by about 82% and 71%, respectively; administered with verapamil: l. Sirolimus Cmax and AUC were increased 2.3- and 2.2-fold, respectively. Cmax and AUC of the pharmacologically active S(-) enantiomer of verapamil were both increased 1.5-fold and tmax was decreased by 1.2 hr; Sources: https://www.accessdata.fda.gov/drugsatfda_docs/label/2020/021083s067,021110s085lbl.pdf#page=27 Page: 19, 27-29 |
Sample Use Guides
For de novo renal transplant patients, it is recommended that Rapamune (Sirolimus) Oral Solution and Tablets be used initially in a regimen with cyclosporine and corticosteroids. A loading dose of Rapamune equivalent to 3 times the maintenance dose should be given, i.e. a daily maintenance dose of 2 mg should be preceded with a loading dose of 6 mg.
For patients receiving Rapamune with cyclosporine, Rapamune therapy should be initiated with a loading dose of up to 15 mg on day 1 post-transplantation. Beginning on day 2, an initial maintenance dose of 5 mg/day should be given. A trough level should be obtained between days 5 and 7, and the daily dose of Rapamune should thereafter be adjusted.
Route of Administration:
Oral
In Vitro Use Guide
Sources: https://www.ncbi.nlm.nih.gov/pubmed/25884947
Mutant patient cell line with the heterozygous R155H mutation was obtained from the Muscle Tissue Culture Collection. Cells were seeded onto 6-well plates and treated with either 0, 1, 10, or 100 μM concentrations of rapamycin for varying time points either 24 or 48 hours. Rapamycin treatment showed an improvement in the autophagy markers p62/SQSTM1 and LC3-I/II. Targeting the mTOR pathway ameliorates an increasing list of disorders, and these findings suggest that valosin containing protein (VCP) disease and related neurodegenerative multisystem proteinopathies can now be included as disorders that can potentially be ameliorated by rapalogs.
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Classification Tree | Code System | Code | ||
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FDA ORPHAN DRUG |
434114
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568416
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524916
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616217
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453114
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WHO-VATC |
QL04AA10
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FDA ORPHAN DRUG |
327210
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NCI_THESAURUS |
C261
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FDA ORPHAN DRUG |
698619
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FDA ORPHAN DRUG |
379312
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NDF-RT |
N0000175624
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NCI_THESAURUS |
C574
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FDA ORPHAN DRUG |
828521
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FDA ORPHAN DRUG |
184304
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EU-Orphan Drug |
EU/3/17/1910
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FDA ORPHAN DRUG |
237007
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NDF-RT |
N0000175605
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FDA ORPHAN DRUG |
391013
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LIVERTOX |
NBK548028
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FDA ORPHAN DRUG |
540516
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NDF-RT |
N0000175550
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FDA ORPHAN DRUG |
678319
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FDA ORPHAN DRUG |
469915
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FDA ORPHAN DRUG |
628918
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FDA ORPHAN DRUG |
508515
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FDA ORPHAN DRUG |
833821
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EMA ASSESSMENT REPORTS |
RAPAMUNE (AUTHORIZED: GRAFT REJECTION)
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FDA ORPHAN DRUG |
829421
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NDF-RT |
N0000175625
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WHO-ATC |
S01XA23
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CFR |
21 CFR 862.3840
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EMA ASSESSMENT REPORTS |
RAPAMUNE (AUTHORIZED: KINDEY TRANSPLANTATION)
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FDA ORPHAN DRUG |
555516
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WHO-ATC |
L04AA10
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D020123
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m9502
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W36ZG6FT64
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100000089170
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SUB10537MIG
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7104
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9168
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CHEMBL413
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35302
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7284
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Sirolimus
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5284616
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W36ZG6FT64
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SIROLIMUS
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DB00877
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RAPALIMUS
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PRIMARY | APPROVED JULY 2014 | ||
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2446
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53123-88-9
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DTXSID5023582
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ACTIVE MOIETY
METABOLITE ACTIVE (PARENT)