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Ciclosporin chemical structure
|(E)-14,17,26,32-tetrabutyl-5-ethyl-8-(1-hydroxy-2-methylhex-4-enyl) -1,3,9,12,15,18,20,23,27-nonamethyl-11,29-dipropyl-1,3,6,9,12,15,18,21,24,27,30- undecaazacyclodotriacontan-2,4,7,10,13,16,19,22,25,28,31-undecaone|
|ATC code |
|Elimination half-life||variable (about 24 hours)|
|Routes of administration||oral, IV, ophthalmic|
Ciclosporin (INN, pronounced /ˌsaɪkləˈspɔrən/), cyclosporine (USAN) or cyclosporin (former BAN), is an immunosuppressant drug widely used in post-allogeneic organ transplant to reduce the activity of the patient's immune system and, so, the risk of organ rejection. It has been studied in transplants of skin, heart, kidney, liver, lung, pancreas, bone marrow, and small intestine. Initially isolated from a Norwegian soil sample, Ciclosporin A, the main form of the drug, is a cyclic nonribosomal peptide of 11 amino acids (an undecapeptide) produced by the fungus Beauveria nivea, and contains a single D-amino acid, which are rarely encountered in nature.
Indications[edit | edit source]
The immuno-suppressive effect of cyclosporin was discovered on January 31, 1972, by employees of Sandoz (now Novartis) in Basel, Switzerland, in a screening test on immune-suppression designed and implemented by Dr.Hartmann F. Stähelin, M.D. The success of Cyclosporin A in preventing organ rejection was shown in liver transplants performed by Dr. Thomas Starzl at the University of Pittsburgh Hospital. The first patient, on March 9, 1980, was a 28-year-old woman. Cyclosporin was subsequently approved for use in 1983.
Apart from in transplant medicine, cyclosporin is also used in psoriasis, severe atopic dermatitis, and, infrequently, in rheumatoid arthritis and related diseases, although it is only used in severe cases. It is commonly prescribed in the US as an ophthalmic ointment for the treatment of dry eyes. It has been investigated for use in many other autoimmune disorders. Inhaled cyclosporine has been investigated to treat asthma and is being studied as a preventative therapy for chronic rejection of the lungs. Cyclosporin has also been used to help treat patients with ulcerative colitis that do not respond to treatment with steroids. This drug is also used as a treatment of posterior or intermediate uveitis with non-infective etiology.
Cyclosporin A has been investigated as a possible neuroprotective agent in conditions such as traumatic brain injury, and has been shown in animal experiments to reduce brain damage associated with injury. Cyclosporin A blocks the formation of the mitochondrial permeability transition pore, which has been found to cause much of the damage associated with head injury and neurodegenerative diseases.
Mode of action[edit | edit source]
Cyclosporin is thought to bind to the cytosolic protein cyclophilin (immunophilin) of immunocompetent lymphocytes, especially T-lymphocytes. This complex of cyclosporin and cyclophilin inhibits calcineurin, which, under normal circumstances, is responsible for activating the transcription of interleukin 2. It also inhibits lymphokine production and interleukin release and, therefore, leads to a reduced function of effector T-cells. It does not affect cytostatic activity.
It also has an effect on mitochondria. Cyclosporin A prevents the Mitochondrial permeability transition pore from opening, thus inhibiting cytochrome c release, a potent apoptotic stimulation factor. However, this is not the primary mode of action for clinical use, but rather an important effect for research on apoptosis.
Biosynthesis[edit | edit source]
Cyclosporine A is synthesized by a nonribosomal peptide synthetase, cyclosporine synthetase. The enzyme contains an adenylation domain, a thiolation domain, a condensation domain, and an [[N-methyltransferase] domain. The adenylation domain is responsible for substrate recognition and activation, whereas the thiolation domain covalently binds the adenylated amino acids to phosphopantetheine and the condensation domain elongates the peptide chain. Cyclosporine synthetase substrates include L-Valine, L-Leucine, L-Alanine, L-Glycine, 2-aminobutyric acid, 4-methylthreonine, and D-Alanine. With the adenylation domain, cyclosporine synthetase generates the acyl-adenylated amino acids, then covalently binds the amino acid to phosphopantetheine through a thioester linkage. Some of the amino acid substrates become N-methylated by S-Adenosyl methionine. The cyclization step releases cyclosporine A from the enzyme.  Amino acids such as D-Ala and butenyl-methyl-L-threonine indicates that cyclosporine synthetase requires the action of other enzymes such as a D-Alanine racemase. The racemization of L-Ala to D-Ala is pyridoxal phosphate-dependent. The formation of butenyl-methyl-L-threonine is performed by a butenyl-methyl-L-threonine polyketide synthase that utilizes acetate/malonate as its starting material. 
Adverse Effects and Interactions[edit | edit source]
Treatment may be associated with a number of potentially serious adverse drug reactions (ADRs) and adverse drug interactions. Ciclosporin interacts with a wide variety of other drugs and other substances including grapefruit juice. There have been studies into the use of grapefruit juice to increase the blood level of cyclosporin.
ADRs can include gum hyperplasia, convulsions, peptic ulcers, pancreatitis, fever, vomiting, diarrhea, confusion, breathing difficulties, numbness and tingling, pruritus, high blood pressure, potassium retention, and possibly hyperkalemia, kidney and liver dysfunction (nephrotoxicity & hepatotoxicity), and an increased vulnerability to opportunistic fungal and viral infections.
An alternate form of the drug, ciclosporin G (OG37-324), has been found to be much less nephrotoxic than the standard ciclosporin A. Ciclosporin G (Mol. mass 1217) differs from ciclosporin A in the amino acid 2 position, where an L-nor-valine replaces the α-aminobutyric acid.
Formulations[edit | edit source]
The drug exhibits very poor solubility in water, and, as a consequence, suspension and emulsion forms of the drug have been developed for oral administration and for injection. Cyclosporine was originally brought to market by Sandoz, now Novartis, under the brand name of Sandimmune, which is available as soft-gelatin capsules, as an oral solution, and as a formulation for intravenous administration. These are all non-aqueous compositions Sandimmune-Novartis. A newer microemulsion orally-administered formulation Neoral Neoral-Novartis is available as a solution and as soft gelatin capsules. The Neoral compositions are designed to form microemulsions in contact with water. Generic ciclosporin preparations have been marketed under various trade names including Cicloral (Sandoz/Hexal) and Gengraf (Abbott). Since 2002, a topical emulsion of ciclosporin for treating keratoconjunctivitis sicca has been marketed under the trade name Restasis. Inhaled cyclosporine formulations are in clinical development, and include a solution in propylene glycol and liposome dispersions.
The drug is also available in a dog preparation manufactured by Novartis called Atopica. Atopica is indicated for the treatment of atopic dermatitis in dogs. Unlike the human form of the drug, the lower doses used in dogs mean the drug acts as an immuno-modulator and has fewer side-effects than in man. The benefits of using this product include the reduced need for concurrent therapies to bring the condition under control.
See also[edit | edit source]
- Cremophor EL ( Additive in Sandimmune )
- Castor oil ( Additive in Sandimmune )
- Alcohol (Additive in Sandimmune and Neoral)
References[edit | edit source]
- Borel JF (2002). History of the discovery of cyclosporin and of its early pharmacological development. Wien. Klin. Wochenschr. 114 (12): 433–7.
Some sources list the fungus under an alternative species name Hypocladium inflatum gams such as Pritchard and Sneader in 2005:
* Pritchard DI (2005). Sourcing a chemical succession for cyclosporin from parasites and human pathogens. Drug Discov. Today 10 (10): 688–91.
* "Ciclosporin" Drug Discovery - A History, 298–299 (refs. page 315), John Wiley & Sons.
However, the name, "Beauveria nivea", also appears in several other articles including in a 2001 online publication by Harriet Upton entitled "Origin of drugs in current use: the cyclosporin story" (retrieved June 19, 2005). Mark Plotkin states in his book Medicine Quest, Penguin Books 2001, pages 46-47, that in 1996 mycology researcher Kathie Hodge found that it is in fact a species of Cordyceps.
- Starzl TE, Klintmalm GB, Porter KA, Iwatsuki S, Schröter GP (1981). Liver transplantation with use of cyclosporin a and prednisone. N. Engl. J. Med. 305 (5): 266–9.
- Lichtiger S, Present DH, Kornbluth A, et al (1994). Cyclosporine in severe ulcerative colitis refractory to steroid therapy. N. Engl. J. Med. 330 (26): 1841–5.
- Sullivan PG, Thompson M, Scheff SW (2000). Continuous infusion of cyclosporin A postinjury significantly ameliorates cortical damage following traumatic brain injury. Exp. Neurol. 161 (2): 631–7.
- Hoppert, M.; Gentzsch, C.; Schӧrgendorfer, K. Arch. Microbiol. 2001, 176, 285-293.
- Dewick, P. (2001) Medicinal Natural Products. John Wiley & Sons, Ltd. 2nd ed.
- Henry ML, Elkhammas EA, Davies EA, Ferguson RM (1995). A clinical trial of cyclosporine G in cadaveric renal transplantation. Pediatr. Nephrol. 9 Suppl: S49–51.
- Calne RY, White DJ, Thiru S, Rolles K, Drakopoulos S, Jamieson NV (1985). Cyclosporin G: immunosuppressive effect in dogs with renal allografts. Lancet 1 (8441): 1342.
Further reading[edit | edit source]
- Bowler, J. V., & Peatfield, R. C. (1992). Delusions and cyclosporine toxicity: Journal of Neurology, Neurosurgery & Psychiatry Vol 55(8) Aug 1992, 742-743.
[edit | edit source]
- Neoral U.S. Prescribing Information
- Sandimmune U.S. Prescribing Information
- Atopica brand (for atopic dermatitis in dogs)
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