From fermentations of Tolypocladium niveum supplemented with D-threonine, a novel natural cyclosporin, [Melle4]cyclosporin, was isolated. Its structural elucidation is based on amino acid analysis and spectroscopic data; the amino acid sequence was deduced from two-dimensional NMR investigations applied to the iso-derivative of [Melle4]cyclosporin which, in contrast to the natural product, is present as one homogenous conformation in solution. We show that one of the four N-methyl-L-leucine units of cyclosporin A, namely that in position 4, is replaced by N-methyl-L-isoleucine. The putative mechanism by which D-threonine induces in vivo biosynthesis of [Melle4]cyclosporin is discussed. In vitro biosynthesis of [Melle4]cyclosporin was achieved using the previously described enzymatic system [Lawen and Traber (1993) J Biol Chem268: 20452–20465], thereby demonstrating the high affinity of cyclosporin synthetase for isoleucine in position 4.
In a long series of cyclosporins obtained by in vitro and in vivo biosynthesis, [Melle4]cyclosporin represents the first example that is devoid of immunosuppressive efficacy while retaining strong binding to cyclophilin. It exerts potent in vitro anti-HIV-1 activity.
References
1.
AndrieuJ.-M.EvenP.VenetA.TouraniJ.-M.SternM.LowensteinW.AudroinC.ErneD.MassonD.SorsH.Israel-BietD., and BeldjordK. (1988) Effects of Cyclosporin on T-Cell Subsets in Human Immunodeficiency Virus Disease. Clin Immunol Immunopathol47: 181–198.
BorelJ.F. (1986) Editorial: Ciclosporin and its Future. Prog Allergy38: 9–18.
4.
CroutD.H.G.GregorioM.V.M.MüllerU.S.KomatsubaraS.KisumiM., and ChibataO. (1980) Stereochemistry of the Conversions of L-Threonine and D-Threonine into 2-Oxobutanoate by the L-Threonine and D-Threonine Dehydratases of Serratia marcescens. Eur J Biochem106: 97–105.
5.
DaviesL. (1979) Functional and Stereochemical Specificity at the β Carbon Atom of Substrates in Threonine Dehydratase-catalyzed α,β Elimination Reactions. J Biol Chem254: 4126–4131.
6.
DreyfussM.HarriE.HofmannH.KobelH.PacheW., and TscherterH. (1976) Cyclosporin A and C, new metabolites from Trichoderma polysporum. Eur J Appl Microbiol3: 125–133.
7.
FaleevN.G.MartinkovaN.S.SadovnikovaM.S.SaporovskayaM.B., and BelikovV.M. (1982) The L- and D-threonine dehydratases accompanying L-tyrosine phenollyase: selective decomposition of D-threonine in racemic mixture. Enzyme Microb Technol4: 164–168.
8.
FischerG.Wittmann-LieboldB.LangK.KiefhaberT., and SchmidF.X. (1989) Cyclophilin and peptidyl-prolyl cis-trans isomerase are probably identical proteins. Nature337: 476–478.
9.
HandschumacherR.E.HardingM.W.RiceJ.DruggeR.J., and SpeicherD.W. (1984) Cyclophilin: A Specific Cytosolic Binding Protein For Cyclosporin A. Science226: 544–547.
10.
HoflerJ.G., and BurnsR.O. (1978) Threonine Deaminase from Salmonella typhimurium. J Biol Chem253: 1245–1251.
KarpasA.LowdellM.JacobsonS.K., and HillF. (1992) Inhibition of human immunodeficiency virus and growth of infected T cells by the immunosuppressive drugs cyclosporin A and FK 506. Proc Natl Acad Sci USA89: 8351–8355.
13.
KobelH., and TraberR. (1982) Directed biosynthesis of cyclosporins. Eur J Appl Microbiol Biotechnol14: 237–240.
14.
KomatsubaraS.KisumiM.ChibataI.GregorioM.M.V.MüllerU.S., and CroutD.H.G. (1977) Stereochemistry of the Conversions in vivo of L- and D-Threonine into 2-Oxobutanoic Acid by the L- and D-Threonine Dehydratases of Serratia marcescens. J Chem Soc, Chem Commun839–841.
15.
LawenA., and TraberR. (1993) Substrate Specificities of Cyclosporin Synthetase and Peptolide SDZ 214-103 Synthetase. Comparison of the substrate specificities of the related multifunctional polypeptides. J Biol Chem268: 20452–20465.
16.
LawenA., and ZocherR. (1990) Cyclosporin Synthetase. The most complex peptide synthesizing multienzyme polypeptide so far described. J Biol Chem265: 11355–11360.
17.
LawenA.TraberR.GeylD.ZocherR., and KleinkaufH. (1989) Cell-free Biosynthesis of New Cyclosporins. J Antibiot42: 1283–1289.
18.
LawenA.TraberR., and GeylD. (1991) In vitro Biosynthesis of [Thr2,Leu5,D-Hiv8,Leu10]Cyclosporin, a Cyclosporin-related Peptolide with Immunosuppressive Activity by a Multienzyme Polypeptide. J Biol Chem266: 15567–15570.
19.
LubanJ.BossoltK.L.FrankeE.K.KalpanaG.V., and GoffS.P. (1993) Human Immunodeficiency Virus Type 1 Gag Protein Bindsto Cyclophilins A and B. Cell73: 1067–1078.
20.
OffenzellerM.SuZ.SanterG.MoserH.TraberR.MemmertK., and Schneider-ScherzerE. (1993) Biosynthesis of the Unusual Amino Acid (4R)-4-[(E)-2-Butenyl]-4-methyl-L-threonine of Cyclosporin A. J Biol Chem268: 26127–26134.
21.
PauwelsP.BalzariniJ.BabaM.SnoeckR.ScholsD.HerdewijnP.DesmyterJ., and DeClercqE. (1988) Rapid and automated tetrazolium-based colorimetric assay for the detection of anti-HIV compounds. J Virol Meth20: 309–321.
22.
QuesniauxV.F.J.SchreierM.H.WengerR.M.HiestandP.C.HardingM.W., and van RegenmortelM.H.V. (1987) Cyclophilin binds to the region of cyclosporin involved in its immunosuppressive activity. Eur J Immunol17: 1359–1365.
23.
RosenwirthB.BillichA.DatemaR.DonatschP.HammerschmidF.HarrisonR.HiestandP.JakscheH.MayerP.PeichlP.QuesniauxV.SchatzF.SchuurmanH.-J.TraberR.WengerR.WolffB.ZenkeG., and ZuriniM. (1994) Inhibition of HIV-1 Replication by SDZ NIM 811, a Non-Immunosuppressive Cyclosporin A Analog. Antimicrob Agents Chemother, in press.
24.
RüeggerA.KuhnM.LichtiH.LoosliH.R.HugueninR.QuiquerezC., and von WartburgA. (1976) Cyclosporin A, ein immunsuppressiv wirksamer Peptidmetabolit aus Trichoderma polysporum (Link ex Pers.) Rifai. Helv Chim Acta59: 1075–1092.
25.
SchindlerR., (ed.) (1985) Cyclosporin in Autoimmune Diseases.Springer Verlag, Berlin.
26.
SchmidtB.RiesnerD.LawenA., and KleinkaufH (1992) Cyclosporin synthetase is a 1.4 MDa multienzyme polypeptide. Re-evaluation of the molecular mass of various peptide synthetases. FEBS Lett307: 355–360.
27.
SchreierM.H.ZenkeG.BorelJ.F., and BaumannG. (1992) The Continuing Search for New Immunomodulators. Transplant Proc24 (Suppl. 2): 19–21.
28.
TraberR.LoosliH.R.HofmannH., and von WartburgA. (1982) Isolierung und Strukturermittlung der neuen Cyclosporine E, F, G, H und I. Helv Chim Acta65: 1655–1677.
29.
TraberR.HofmannH.LoosliH.R.PonelleM., and von WartburgA. (1987) Neue Cyclosporine aus Tolypocladium inflatum. Die Cyclosporine K-Z. Helv Chim Acta70: 13–36.
30.
TraberR.HofmannH., and KobelH. (1989) Cyclosporins — New Analogues by Precursor Directed BiosynthesisJ Antibiot42: 591–597.
31.
von WartburgA., and TraberR. (1988) Cyclosporins, fungal metabolites with immunosuppressive activities. In Progress in Medicinal Chemistry, Vol. 25. EllisG.P., and WestG.B. (eds). Elsevier Science Publishers, pp. 1–33.
