Alkene derivatives heterocyclic synthesis, intramolecular

The N-heterocyclic alkenes derived from ring-closing metathesis are useful substrates for further transformation. In a synthesis directed toward the insecticidal cripowellin 12, Dieter Enders of RWTH Aachen has shown (Angew. Chem. Int. Ed. 2005,44, 3766) that the tertiary amide 8 cyclizes efficiently to the nine-membered alkene 9. The vision was that an intramolecular Heck cyclization could then deliver the cripowellin skeleton. Indeed, the Heck did proceed, and, depending on conditions, could be directed toward either 10 or 11. Unfortunately, the conformation of 9 is such that the cyclization proceeded cleanly across the undesired face. Nevertheless, both 10 and 11 appear to be valuable intermediates for further transformation. 

Until recently, the intramolecular cyclization procedure had been used only to synthesize fused heterocyclic structures. The first report of a bridged product, in 1978, involved only a minor amount (9%) of an azabicyclo[3.3.1]nonane derivative obtained from the reaction of ds-carveol with acetonitrile and BFj-EtiO. However, several effective examples are now known. These all involve reaction of the nitri-lium intermediate with an internal alkenic nucleophile to yield a 1-azacyclohexene ring and a new carbe-nium ion which undergoes conventional, but stereospecific, Ritter reaction fiom the least hindered face. Such reactions are typified by formation of the multicyclic structures (64 equation 38) 5<) and (65 equation 39), 5i considerable potential in the synthesis of complex nitrogen heterocyclic systems... 

The Pd(II)-induced intramolecular attack of heteroatom nucleophiles to alkenes or alkynes with subsequent carbonylation leads to acylpaUadium intermediates, which in turn can further react to carboxylic acid derivatives. This chemistry opens highly efhcient tandem transformations, which are of outstanding value for the synthesis of complex heterocyclic molecules. While the chemo- and regioselectivities of such reactions can be efficiently controlled in many cases by proper choice of substrates and reaction conditions, the control of the absolute configuration in the case of chirogenic reactions stiU remains a challenge for future research and development. 

The addition of thiyl radicals to alkenes and alkynes can also occur in an intramolecular fashion to lead to sulfur heterocycles. Surzur and co-workers [33, 34] have shown that the pent-4-enylthiyl radical yields both five- and six-mem-bered rings. The six-membered rings were formed in much higher yield than the five-membered rings (ca. 10 1). Since these cyclizations are reversible, the product distribution reflects a thermodynamic control (Scheme 5). The same type of reactions can be initiated by photolysis of disulfides, as demonstrated by Maki and Sako in the synthesis of cepham and penam derivatives [35]. The photoreaction of (5) is concentration dependent at low concentrations cepham derivatives are formed almost exclusively via 6-endo cyclization, whereas at high concentrations penam derivatives predominate. 

The oxidative addition reactions to alkenes promoted or catalyzed by PdCl2(CH3CN)2 have been classified based on the nature of the attacking species. Oxygen nucleophiles such as water, alcohols and carboxylic acids undergo oxypalladation, while ammonia, amines and their derivatives are typical nucleophiles for aminopalladation. Carbopalladation with active methylene compounds is also discussed The palladium-catalyzed intramolecular hetero- and carbopalladation of olefins is extensively used as the ring-forming step in the synthesis of a variety of heterocyclic and carbocyclic systems, and representative examples are provided. 

An extensive review of the synthesis of a wide variety of five-membered heterocyclic compounds, via the formal 3-1-2-cycloaddition reactions of aziridines with alkenes, alkynes, nitriles, carbonyl groups, and heterocumulenes, has been presented." Supercritical CO2 has been used as the solvent in the formal 3-1-2-cycloaddition reactions of A-benzyl- and A-cyclohexyl-2-benzoyl-3-phenylaziridines with allenoates to yield pyrrole derivatives." The Lewis acid-catalysed intramolecular formal 3-1-2-cycloaddition reactions of 2-methyleneaziridines with tethered alkenes or alkynes (23) yielded cw-octahydrocyclopenta[c]pyrroles (24) after reductive workup. The reaction mechanism proceeds in a stepwise manner via a 2-aminoallyl cation (Scheme The Cu(I)/DTBM-Segphos-catalysed 1,3-dipolar cycloaddition reactions of a-silylimines and activated alkenes yielded highly enriched 5-unsubstituted a-quaternary proline cycloadducts with excellent diastereo- and enantio-selectivities (73-99% The... 

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