Cyclization asymmetric Heck reaction

Asymmetric cyclization using chiral ligands has been studied. After early attempts[142-144], satisfactory optical yields have been obtained. The hexahy-dropyrrolo[2,3-6]indole 176 has been constructed by the intramolecular Heck reaction and hydroaryiation[145]. The asymmetric cyclization of the enamide 174 using (S j-BINAP affords predominantly (98 2) the ( )-enoxysilane stereoisomer of the oxindole product, hydrolysis of which provides the ( l-oxindole aldehyde 175 in 84% yield and 95% ec. and total synthesis of (-)-physostig-mine (176) has been achieved[146]. 

Palladium-catalyzed arylation of olefins and the analogous alkenylation (Heck reaction) are the useful synthetic methods for carbon-carbon bond formation.60 Although these reactions have been known for over 20 years, it was only in 1989 that the asymmetric Heck reaction was pioneered in independent work by Sato et al.60d and Carpenter et al.61 These scientists demonstrated that intramolecular cyclization of an alkenyl iodide or triflate yielded chiral cyclic compounds with approximately 45% ee. The first example of the intermolecular asymmetric Heck reaction was reported by Ozawa et al.60c Under appropriate conditions, the major product was obtained in over 96% ee for a variety of aryl triflates.62... 

Overman s group [71,72] enlisted an intramolecular Heck reaction to form a quaternary center in their efforts toward ( )-gelsemine. When the cyclization precursor 70 was submitted to the ligandless conditions [Pd2(dba)3, Et3N] in the weakly coordinating solvent toluene, the quaternary center was formed as a 9 1 ratio of diastereomers (72 71 = 89 11). Addition of a silver salt in polar solvent THF completely reversed the sense of asymmetric induction in the cyclization reaction (72 71 = 3 97). 

In a series of studies, Shibasaki examined the formation of chiral benzylic quaternary centers by using asymmetric intramolecular Heck reactions. The effect of double-bond stereochemistry was examined in the cyclization of aryl Inflates 9.1 and 9.3 (Scheme 8G.9) [22], As is commonly... 

The palladium-catalyzed arylation and alkenylation of olefins, which were first discovered in the 1970 s by Heck (7,2) and Mizoroki (3) and have been often called the "Heck reaction", are versatile synthetic means for making a carbon-carbon bond. These reactions have been extensively used for organic synthesis during the past two decades (4-7). However, no reports on the "asymmetric Heck reaction" have been appeared until very recently. Shibasaki reported an asymmetric intramolecular cyclization of alkenyl iodides to give c/j-decalin derivatives of 80-91% ee (8-10). Overman reported an intramolecular cyclization of alkenyl triflate, giving a chiral quaternary carbon center of 45% ee (77). We report herein the first example of intermolecular asymmetric Heck-type arylation of cyclic olefins catalyzed by (7 )-BINAP-coordinated palladium complexes (Scheme 1) (12,13). 

Intramolecular asymmetric Heck reactions. The usefulness of the As analog of BINAP as a ligand for the cyclization of iodoalkenylcyclohexadienes has been demonstrated. 

The first examples of asymmetric Heck reactions (AHRs) appeared around 20 years ago, reported almost simultaneously by Shibasaki and Overman. Equations 12.47105 and 12.48106 show these first efforts. Despite the modest enantioselectivi-ties observed, the transformations are notable because they show that tertiary and especially difficult to build quaternary centers can be constructed in a stereo- and regioselective manner. Equation 12.48 also shows an example of tandem Heck reactions in which two cyclizations occur in sequence. 

Hu et al. [104] disclosed that the spiro phosphine oxide ligand (/ )-30a is highly efficient for the Pd-catalyzed Heck reaction of cyclic and heterocyclic olefins with aryl triflates. An asymmetric domino Heck cyclization was established using catalyst Pd/(/ )-30a to form fused carbo- and heterocycles with excellent stereoselectivity (Scheme 42) [105]. This method was used in a short synthesis of (-)-martinellic acid, a primary ingredient in traditional eye medicine in South America. 

The enantioselective spiro ring construction is an important issue because many natural compounds have chiral spiro centers [103,104]. Pd catalyses of Spiro cyclizations have been reported by asymmetric intramolecular Mizoroki-Heck reactions [105,106]. In spite of a similar potential, transition metal-catalyzed ene-type carbocyclization has never been applied to asymmetric spiro cyclizations [107-110]. 

Treatment with excess trifluoroacetic acid furnished the (dihydroiminoethano) carbazole 107 in 71% overall yield. Epoxidation of the alkene followed by a two-step protecting group modification gave epoxide 108, which underwent an oxidative epoxide opening followed by silyl protection to give silyl ether 109. Alloc deprotection, alkylation with (Z)-2-iodo-2-butenyl tosylate, followed by an intramolecular Heck reaction delivered pentacyclic diamine 110. A three-step formation of the p-ketoester 111 followed by a three-step reduction process afforded ester 112, which underwent a reduction and deprotection sequence to provide minfien-sine (99). A sequential catalytic asymmetric Heck-(V-acyliminium ion cyclization for the delivery of the enantiopure 3,4-dihydro-9a,4a-(iminoethano)-9//-carbazole is the highlight of the synthesis. 

In the presence of a chiral ligand, asymmetric Heck reactions can be carried out. The axially-chiral bisphosphine ligand (/ )- or (5)-BINAP promotes good to excellent levels of enantioselectivity in intramolecular Heck reactions. For example, insertion of palladium into the aryl iodide 214 followed by cyclization gave the indolinone 215 in high enantiomeric excess, used in a synthesis of physostigmine (1.215). ... 

Asymmetric carbopalladation can also be combined with other reactions to give domino asynunetric processes. A group selective example from a synthesis of ( capnellene 216 features the cyclization of the alkenyl triflate 210 (Scheme 32). The resultant TT-allylpalladium intermediate has effectively been captured with a variety of nucleophiles including acetate anion for the synthesis. A domino Suzuki coupling/in-tramolecular Heck reaction converts ditriflate 212 into tricycle 213 in modest yield with 85% The transformation accomplises an annnelation, two carbon-carbon bond... 

The intramolecular Mizoroki-Heck reaction, although it had been known since 1977, when it was first used in the synthesis of heterocycles [7], started to be explored properly only around the mid 1980s. Its large use for the preparation of carbocycles began only in the late 1980s [8]. Since then, however, there has been a tremendous increase of interest in this intramolecular cyclization, culminating in its widespread utilization in total synthesis [9], This was mostly due to the development of asymmetric versions by two major contributors, namely Overman for the construction of heterocycles [9] (Chapter 12) and Shibasaki focusing on carbocyclic systems [10] (Chapter 16). 

The o-aminophenyl-directed asymmetric Mizoroki-Heck reaction can also be applied to intramolecular reactions [30]. For example, when alkenyl iodide 63 is subjected to palladium catalyst, Mizoroki-Heck cyclization furnishes 64 with almost complete diastereose-lectivity (Figure 7.21). An asymmetric reaction utihzing an enantiomerically pure sulfoxide unit is also possible. 

---