Enzymes, such as protein kinase C (PKC), are ubiquitously expressed by eukaryotes2 and are an attractive target to guide discovery of new bioactive substances.26 The PKC signaling path constitutes a pivotal mechanism in the regulation of fundamental processes such as protein synthesis, gene expression, and cell proliferation. Consequently, the development of selective, nontoxic PKC inhibitors may provide treatments for cancer3 a'b or viruses.36 Only a few natural product PKC inhibitors have been discovered, and some of the most important are alkaloids such as the staurosporines,4 a~°c helerythrine,44 and balanol.46 We
, 15 (1994) 1-(2-Bromobenzy1)-2-alkanesulfonylpyrroles (lc, 16) and 1-(4-bromobuty1)-2-methylsulfonfylpyrrols (8) undergo oxidative radical cyclization with partial or complete reductive desulfonylation to the pyrrolizidine derivatives 5 and 9 by an AIBN initiated reaction with tri-n-butyltin hydride. These cyclizations are suggested to proceed via a pseudo SRNl process involving radical addition to the a position of the pyrrole nucleus not bearing the sulfonyl group. Reductive removal of the alkylsulfonyl moiety is proposed to occur in a second process after completion of the oxidative radical cyclization. The site of the radical addition is supported by deuterium labelling studies. Consistent with the timing of the loss of the sulonyl group is that 2-alkysulfonylpyrroles 11 are reductively desulfonylated under the same conditions that effect the oxidative radical cyclizations. 15 (1994) Lorsqu'ils sont soumis une reaction initiee par 1'AIBN et l'hydrure de tri-n-butyletain, les 1-(2-bromobenzy1)-2-alcanesulfonylpyrroles (lc,ld) et les 1 -(4-bromobuty1)-2-m~thylsulfonylpyrroles (8) subissent une cyclisation radicalaire oxydante accompagnee d'une dCsulfonylation reductrice partielle ou complkte conduisant aux derives pyrrolizidine 5 et 9. I1 y a des indications i l'effet que ces cyclisations se produisent par le biais d'un processus pseudo S 1 impliquant une addition radicalaire sur la position RN, , . a du noyau du pyrrole ne portant pas le groupe sulfonyle. I1 est suggCrC que 1 elimination reductrice de la portion alkylsulfonyle se produit au cours d'un deuxikme processus, aprks la cyclisation radicalaire oxydante. Le site de l'addition radicalaire est en accord avec les etudes de marquage au deuterium. En accord avec la sequence des reactions, il faut noter que les 2-alkylsulfonylpyrroles (11) sont dCsulfonylCs d'une fa~on reductrice dans les conditions conduisant aux cyclisations radicalaires rkductrices.[Traduit par la redaction]Several years ago we embarked on a research program, the objective of which was to study the reactions of pyrroles with alkyl and aryl radicals. Although both radical addition and radical substitution reactions of pyrrole derivatives had been reported at that time (1, 2), only arylation had been systematically studied and was of preparative significance (see ref.
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