Substitution piperidines

These substances differ structurally from niquidine (VI) by the substitution in the latter of a propylidene chain at C. Ainley and King having already found that d- and Z-dihydroquinicinols (VIII) which are y-substituted piperidine derivatives, were inactive, it appeared from these two sets of results that the strongly basic centre should not be separated by more than two carbon atoms frorn the point of attachment to the quinoline nucleus. King and Work therefore prepared a series of... 

To return to a more historical development the mercuric acetate oxidation of substituted piperidines (77) should be discussed next. This study established that the normal order of hydrogen removal from the aW-carbon is tertiary —C—H > secondary —C—H > primary —C—H, an observation mentioned earlier in this section. The effect of substitution variations in the piperidine series can be summarized as follow s l-mcthyl-2,6-dialkyl and 1-methyl-2,2,6-trialkyl piperidines, as model systems, are oxidized to the corresponding enamines the 1,2-dialkyl and l-methyl-2,5-dialkyl piperidines are oxidized preferentially at the tertiary a-carbon the 1-methyl-2,3-dialkyl piperidines gave not only the enamines formed by oxidation at the tertiary a-carbon but also hydroxylated enamines as found for 1-methyl-decahydroquinoline (48) (62) l-methyl-2,2,6,6-tctraalkyl piperidines and piperidine are resistant to oxidation by aqueous mercuric acetate and... 

Marazano and co-workers have used the Zincke reaction extensively to prepare chiral templates for elaboration to substituted piperidine and tetrahydropyridine natural products and medicinal agents. For example, 3-picoline was converted to Zincke salt 40 by reaction with 2,4-dinitrochlorobenzene in refluxing acetone, and treatment with R- -)-phenylglycinol in refluxing n-butanol generated the chiral pyridinium 77. Reduction to... 

Enantiopure (7 )-3-alkylpiperidines (38, R = Me, Et) were obtained when perhydropyrido[2,l-Z)][l,3]benzoxazin-9-ones (37, R = H, Me) were treated first with an excess of AIH3, then with PCC, followed by a 2.5 N solution of KOH (99TL2421). Treatment of optically active perhydropyr-ido[2,l-Z)][l,3]benzoxazines 39 and 40 with LAH in the presence of AICI3 and DIBALH (if R = COOEt) yielded 3-substituted piperidines 41 (00TA2809). 

The key intermediate, normeperidine (81), is obtained by a scheme closely akin to that used for the parent molecule, Thus, alkylation of phenylacetonitrile with the tosyl analog of the bischloroethyl amine (78) leads to the substituted piperidine... 

The phenothiazine duoperone (5) combines structural elements found in phenothiazine and buty-rophenone antipsychotic agents. Alkylation of substituted piperidine 1 with 3-chloropropanol affords the intermediate 2 treatment of this with thionyl chloride converts the terminal hydroxyl to chloride. Alkylation of the phenothiazine 4 with halide 3 affords the antipsychotic agent duoperone (5) [1]. 

Amidoalkylation of silyl enol ethers with /V-acyliiiiiiiium ions containing camphanoyl-derived acyl functions (see Appendix) as the chiral auxiliary leads to optically active 2-substituted piperidine derivatives with moderate to high diastereoselectivity, depending on the chiral auxiliary and the cnol ether82 99. The auxiliary is removed by hydrolysis with base or acid. 

Substituted Piperidine Derivatives by Amidoalkylation of Silyl I nnl Ethers General Procedure82 ... 

Diastereoselective alkylation of lactams derived from 7 -(-)-phenylglycinol is an efficient method for the preparation of various substituted piperidines <961(52)7719, 961(52)7727, 961L(37)849>. Ihe asymmetric s mthesis of a series of 2-(l-aminoalkyl)piperidines using (-)-2-cyano-6-phenyloxazolopiperidine has been described <96JOC(61)6700>. 

A strategy involving sequential 1,3-dipolar cycloadditions has been reported for the synthesis of novel bis-isoxazolo substituted piperidines 192a and 192b (Eqs. 18 and 19) [53]. It consists of the Michael addition of an unsaturated alkox-ide 185 to )3-nitrostyrene 184 followed by an INOC or ISOC reaction to provide isoxazolines 187-189 (Eq. 18 and Table 18). A polymer supported acyl chloride... 

Secondary amines such as dibenzylamine or 4-substituted piperidines are readily formylated in yields of up to 94% at room temperature by excess N,N-di-methylformamide (DMFj/MesSiCl 14/imidazole with formation of HCl and HMDSO 7 [32aj. 

Intramolecular tandem cyclization of substituted piperidine-l-carboxamide 96 results in formation of cycloadduct 77 through the intermediary of A-sulfinylurea (Scheme 8) <2001JA8851, 2002JA3939>. 

Spiroaziridinium compounds have also been synthesized under photochemical conditions. For example, the photolysis of piperidine 83 in acetonitrile resulted in 3-azoniaspirooctane 85 (Equation 19) <1997JOC6903>. Its presence was detected by H NMR spectroscopy and mass spectrometry. This azoniaspiro species was thought to be transient and went on to form N-substituted piperidines which were qualitatively identified by gas liquid chromatography (GLC). 

The aza-[2,3] Wittig rearrangement of aziridines is an excellent method for the synthesis of substituted piperidines. The analogous reaction of an epoxide has recently been examined <06TL7281>. Reaction of divinyl epoxide 48 with /-butyl diazo acetate provides the ylide intermediate 49, which then undergoes the [2,3] Wittig rearrangement to 50, Several catalysts were examined as catalysts for the formation of 49. It is noteworthy that the copper catalyst performed much better than the more widely used rhodium catalysts. 

The scheme below depicts the novel use of a carbonyl ene cyclization (A, Lewis acid-catalyzed) and a closely related Prins cyclization (B, Brpnsted acid-catalyzed) to generate predominantly trans (cyclization condition A) or cis (cyclization condition B), di and tri substituted piperidines 160 and 161 <06JOC2460 06OBC51>. Of note, in the formation of di-substituted derivatives, R1 = H and R2 = Ph, no reaction occurs under cyclization condition B and the cis isomer 160 is obtained exclusively under cyclization condition A. In the case of tri-substituted derivatives, when bulky substituents at the 2-position (R1 = f-Bu or Ph) are present the trans diastereomer 161 is obtained almost exclusively under cyclization condition A, while no diastereoselectivity is seen under cyclization condition B. 

Stereocontrolled nucleophilic opening at the C 1-position of epoxides to furnish substituted piperidine 182 was accomplished through the use of Lewis acids TMSOTf or Sc(OTf), <06CC2156>. 

A novel route to 3,4-disubstituted piperidines 206 via ring transformation of 2-(haloalkyl)azetidines 207 is shown below. During these reactions, bicyclic azetidinium intermediates are formed and then ring opened by a variety of nucleophiles generating stereospecific substituted piperidines in excellent yields <06OLl 105>. 

The reaction can effect cyclization of the side chain of tryptamine (1) to form a substituted piperidine ring (2).3... 

Klumpp, D. A. Garza, M. Jones, A. Mendoza, S. Synthesis of Aryl-Substituted Piperidines by Superacid Activation of Piperidones. J. Org. Chem. 1999,64,6702-6705. 

The reactions did prove to be compatible with the use of a-stannyl amides. In these cases, the cyclization reaction involved the trapping of an iV-acyliminium ion by the olefin and led to the formation of substituted piperidines. 

Good yields of secondary amines are achieved using both the methods in the reactions of aromatic and aliphatic aldehydes as well as of diaUcyl ketones and cycloalkanones with aliphatic and alicyclic amines (and ammonia). Anilines give low yields, but when 2 equiv is used in the sodium hydrogen telluride method, the yields are improved. In the reaction of ammonia with aldehydes, symmetrical secondary amines are obtained, whereas glu-taraldehyde and amines lead to N-substituted piperidines. 

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