Tributyltin-amides

The first palladium-catalyzed formation of aryl C-N bonds was reported in 1983 by Migita and co-workers, Eq. (1) [14], The reaction of electronically neutral aryl bromides and aminotin compounds in the presence of catalytic [(o-tol)3P]2PdCl2 resulted in the efficient preparation of the corresponding aniline in moderate to good yield. This seminal discovery was limited by the necessity to use the thermally and moisture sensitive tributyltin amides, however. 

Ring Additions Catalyzed by Alkali Metals. The addition of tributyltin chloride and olefins such as styrene, isoprene, or butadiene to sulfolane is cataly2ed by alkah metals, including sodium and lithium, and by sodium amide (10—13). The addition of tributyltin chloride to sulfolane in the... 

Like most aryl halides, furyl halides and furyl triflates have been coupled with a variety of organostannanes including alkenyl, aryl, and heteroaryl stannanes in the presence of catalytic palladium. Carbamoylstannane 66 was prepared by treating lithiated piperidine with carbon monoxide and tributyltin chloride sequentially. The Stille reaction of 66 and 3-bromofuran then gave rise to amide 67 [61]. In another example, lithiation of 4,4-dimethyl-2-oxazoline followed by quenching with MesSnCl resulted in 2-(tributylstannyl)-4,4-dimethyl-2-oxazoline (68) in 70-80% yield [62], Subsequent Stille reaction of 68 with 3-bromofuran afforded 2-(3 -furyl)-4,4-dimethyl-2-oxazoline (69). 

The A-trimethylsilylimines 68 (R = t-Bu, Ph, 2-MeCgH4 or 2-BrC6H4), which are prepared by the reaction of non-enolizable aldehydes with lithium bis(trimethylsilyl)amide, followed by trimethylsilyl chloride, undergo pinacolic coupling induced by NbCLt 2THF to yield the vicinal diamines 69 as mixtures of dl- and meso-isomers, in which the former predominate. Another method for the preparation of 1,2-diamines is by the combined action of the niobium tetrachloride/tetrahydrofuran complex and tributyltin hydride on cyanides RCN (R = /-Hu. Ph, cyclopentyl or pcnt-4-en-l-yl) (equation 32)82. 

The presence of the propionamide fragment in the stmcture of the anti-inflammatory agent broperamole (125-1) is reminiscent of the heterocycle-based NSAID propionic acids. The activity of this agent may trace back to the acid that would result on hydrolysis of the amide. Tetrazoles are virtually always prepared by reaction of a nitrile with hydrazoic acid or, more commonly, sodium azide in the presence of acid in a reaction very analogous to a 1,3-dipolar cycloaddition. A more recent (and safer) version of the reaction noted later (see losartan, 77-4) uses tributyltin azide. In the case at hand, reaction of the anion of mefa-bromobenzonitrile (125-1) with sodium azide and an acid affords the tetrazole (125-2). Condensation of the anion from that intermediate with ethyl acrylate leads to the product from Michael addition saponiflcation gives the corresponding carboxylic acid (125-3). This is then converted to the acid chloride reaction with piperidine affords broperamole (125-4) [136]. 

Norephedrine, 200 Organoaluminum reagents, 202 Organotitanium reagents, 213 9-(Phenylseleno)-9-borabicyclo-[3.3.1]nonane, 245 Tin(II) chloride, 298 Titanium(IV) chloride, 304 Trityllithium, 338 Trityl perchlorate, 339 Zinc chloride, 349 By other reactions Chloromethyl ethyl ether, 75 Dibutyltin oxide, 95 Samarium(II) iodide, 270 Tributyltin hydride, 316 Hydroxy amides a-Hydroxy amides... 

Lithium-Ammonia, 158 Potassium hydride, 257 Tetrakis(triphenylphosphine)palla-dium(O), 289 Tributyltin chloride, 315 8,e-Unsaturated aldehydes and ketones Allyltrimethylsilane, 11 Lead tetraacetate, 155 Unsaturated amides Bis(benzonitrile)dichloropalladium(II), 34... 

The scope of this reaction appeared to be limited to dialkylamides and electron-neutral aryl halides. For example, nitro-, acyl-, methoxy-, and dimethylamino-substituted aryl halides gave poor yields upon palladium-catalyzed reaction with tributyltin diethylamide. Further, aryl bromides were the only aryl halides to give any reaction product. Vinyl bromides gave modest yields of enamines in some cases. Only unhindered dialkyl tin amides gave substantial amounts of amination product. The mechanism did not appear to involve radicals or benzyne intermediates. 

Caddick [19] has reported the use of a novel polymer-supported tetra-fluorophenol-Unked acrylate as an activated acceptor for intermolecular radical reactions. Treatment of immobiUzed acrylate 132 with a variety of alkyl iodides in the presence of tributyltin hydride and AIBN gave the corresponding esters 133 (Scheme 29). NucleophiUc cleavage using amines gave amides 134 in good overall yield whilst regenerating phenol resin 131. 

A useful application of this reaction to a cyclic alkene 2 constitutes the key step in the total synthesis of thromboxane B216. Starting from methyl a-D-glucopyranoside (1), 3,6-dihydro-2-hydroxymethyT6-methoxy-ATV-dimethyl-2/y-pyran-3-acetamide (2) is obtained pure in six steps. Treatment of the amide with 3 equivalents of iodine in tetrahydrofuran/water at 0 °C for 1 hour gives the iodolactone 3 in 80% yield. Deiodination with tributyltin hydride quantitatively affords the hydroxy lactone 4. 

The stereoselectivity observed in the cyclization of 4-unsaturated amides is dependent on the electrophilic halogen species. With /V-chlorosuccinimide the trans/cis ratio is reduced to 3 2, while with A -bromosuccinimide the fra .v-isomer is obtained in >98% purity. The structures of the iodolactones 4 were confirmed by reduction with tributyltin hydride to the trans- and rw-2.4-dimethy]-y-lactones. The high 1,3-trans selectivity strongly contrasts with the results obtained when 2-methyl-4-pentenoic acid is cyclized under thermodynamic conditions with iodine in acetonitrile. In this case a 92% yield and a 32 68 mixture of the f/ww/m-com pounds was obtained. 

The halolactonization reaction can be utilized to synthesize enantiomerically pure ot-hydroxy acids. In fact, cyclization of the (S)-/V-(a,/ii-unsaturated acyl)proline 1, prepared by the condensation of ( S )-pi oline and ( )-2-methyl-2-butenoyl chloride in 86 % yield, proceeds stereoselec-tively. The halolactonization, carried out by stirring the unsaturated amide with an equivalent of jY-bromosuccinimide in dimethylformamide for 20 hours, provides the bromolactone 2 in 84% yield and a diastereomeric ratio of 94.5 5.5. Debromination with tributyltin hydride in benzene affords the crude lactone 3 which is hydrolyzed with 36% hydrochloric acid at reflux to give (R)-2-hydroxy-2-methylbutanoic acid (4)1,2,4b. 

The enantioselective total synthesis of (-)-hemiasterlin, a marine tripeptide with cytotoxic and antimitotic activity, was achieved by E. Vedejs and co-workers. The asymmetric Strecker reaction was used to construct the key tetramethyltryptophan subunit. The aldehyde substrate was first converted to the corresponding chiral imine with (R)-2-phenylglycinol under scandium triflate catalysis. The addition of tributyltin cyanide resulted in the formation of a-amino nitriles as an 8 1 mixture of diastereomers. Subsequently the cyano group was converted to a primary amide, and the chiral auxiliary was removed under catalytic hydrogenation conditions. 

Some examples are given in equations 4-71-4-75, and more are to be found in the sections dealing with the respective specific classes of organotin compounds which are formed. Cyclopentadiene can be both mono- and di-stannylated, and triphenylindenyltin has been obtained from indene (Section 9.3.1).116 Acetylene can be both mono-and di-stannylated,116-117 and the reaction of a diaminotin compound with acetylene gives a linear polymer.116-118 The acidity of sulphonylalkynes is sufficient to allow the reaction to be carried out with a tin alkoxide rather than a tin amide,119 and acetylenes can be stannylated with tributyltin oxide in benzene by dehydration with calcium hydride, or azeotropically.120... 

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