1.The reaction of cinnamaldehyde and cinnam(o)yl derivatives with thiols.
Alessandro AUTELITANO ; Alberto MINASSI ; Alberto PAGANI ; Orazio TAGLIALATELA-SCAFATI ; Giovanni APPENDINO
Acta Pharmaceutica Sinica B 2017;7(4):523-526
Spurred by the alleged relevance of the thia-Michael reaction in the bioactivity of various classes of cinnam(o)yl natural products and by the development of a quick NMR assay to study this reaction, we have carried out a systematic study of the "native" reactivity of these compounds with dodecanethiol and cysteamine as models, respectively, of simple thiols and reactive protein thiols that can benefit from iminium ion catalysis in Michael reactions. Cinnamoyl esters and amides, as well as cinnamyl ketones and oximes, did not show any reactivity with the two probe thiols, while cinnamaldehyde () reacted with cysteamine to afford a mixture of a thiazoline derivative and compounds of multiple addition, and with aliphatic thiols to give a single bis-dithioacetal (). Chalchones and their vinylogous C5-curcuminoid derivatives were the only cinnamoyl derivatives that gave a thia-Michael reaction. From a mechanistic standpoint, loss of conjugation in the adduct might underlie the lack of a native Michael reactivity. This property is restored by the presence of another conjugating group on the carbonyl, as in chalcones and C5-curcuminoids. A critical mechanistic revision of the chemical and biomedical literature on cinnamaldehyde and related compounds seems therefore required.
2.The dimerization of -tetrahydrocannabinolic acid A (THCA-A).
Arben CUADARI ; Federica POLLASTRO ; Juan D UNCITI-BROCETA ; Diego CAPRIOGLIO ; Alberto MINASSI ; Annalisa LOPATRIELLO ; Eduardo MUÑOZ ; Orazio TAGLIALATELA-SCAFATI ; Giovanni APPENDINO
Acta Pharmaceutica Sinica B 2019;9(5):1078-1083
The renewed interest in dimeric salicylates as broad-spectrum anti-inflammatory and anti-diabetic agents provided a rationale to investigate the dimerization of the substituted salicylate -tetrahydrocannabinolic acid (THCA-A, ) as a strategy to solve its instability to decarboxylation and to generate analogues and/or pro-drugs of this native pre-cannabinoid. Activation of the carboxylic group with the DCC-HOBt-DMAP protocol afforded a high yield of the OBt ester , that was next converted into the highly crystalline di-depsidic dimer upon treatment with DMAP. The mono-depsidic dimer was also formed when the reaction was carried out with partially decarboxylated THCA-A samples. The structure of the depsidic dimers was established by spectroscopic methods and by aminolysis of into the pre-cannabinoid amide . Both dimers showed excellent shelf stability and did not generate significant amounts of -THC upon heating. However, only the didepsidic dimer activated PPAR-, the major target of pre-cannabinoids, but strong binding to serum proteins abolished this activity, also shielding it from the action of esterases.