Progettazione e sintesi di nuovi derivati azetidinonici biologicamente attivi

In this PhD-thesis new synthetic approaches towards new azetidinone derivatives are described. In particular, 4-alkyliden-β-lactams were used as starting materials for the preparation of new biologically active compounds. The carbapenem Thienamycin has got a broad spectrum of activity as antibiotic. It has got 3 stereocenters and apart of one epimer, all isomers have been synthesized. Using the 4-alkyliden-β-lactam benzilyc ester as precursor, we developed a synthesis for this missing epimer, which is described in chapter II. Biological tests in order to establish its biological activity are under way. The Hunsdiecker-Borodine reaction was extensively studied for the preparation of the mono halogenated and – surprisingly – the dihalogenated derivative from the 4-alkyliden-azetidinone carboxylic acid. The herein described synthetic procedures allowed the preparation of chloro-, bromo- and iodo derivatives in good to excellent yield. Furthermore, the reaction mechanism was investigated by NMR-experiments and is described in detail in chapter III. In chapter IV, synthetic approaches towards new β-lactam derivatives for inhibition of the histone deacetylase enzymes (HDACs) are reported. In collaboration with the company Sigma-Tau (Rome), 14 new β-lactams were synthesized. The new β-lactams were evaluated for the activity showing a promising activityparticulary, 10 of the β-lactams synthesized were evaluated for the in vitro inhibitory activity against the 11 human HDACs isoforms and they showed a selective inhibition of HDAC6 or HDAC8 in micromolar range. Finally, preliminary studies were conducted for the employment of 4-alkyliden-β-lactams as precursors for the synthesis of chiral β-amino acids by an opening of the β-lactam ring. In chapter V is described the ring opening reaction catalyzed by the enzyme lipase Cal-B. Preliminary results have shown that the enzyme not only catalyzes the ring opening of the β-lactam precursor, moreover, it leads to the formation of a cyclic dimer by the reaction of two molecules of β-amino acid obtained.

Cyclic alternating pattern in sleep and its relationship to creativity

Background/Objectives: Sleep has been shown to enhance creativity, but the reason for this enhancement is not entirely known. There are several different physiological states associated with sleep. In addition to rapid (REM) and non-rapid eye movement (NREM) sleep, NREM sleep can be broken down into Stages (1-4) that are characterized by the degree of EEG slow wave activity. In addition, during NREM sleep there are transient but cyclic alternating patterns (CAP) of EEG activity and these CAPs can also be divided into three subtypes (A1-A3) according to speed of the EEG waves. Differences in CAP ratios have been previously linked to cognitive performances. The purpose of this study was to learn the relationship CAP activity during sleep and creativity. Methods: The participants were 8 healthy young adults (4 women), who underwent 3 consecutive nights of polysomnographic recording and took the Abbreviated Torrance Test for Adults (ATTA) on the 2 and 3rd mornings after the recordings. Results: There were positive correlations between Stage 1 of NREM sleep and some measures of creativity such as fluency (R= .797; p=.029) and flexibility ( R=.43; p=.002), between Stage 4 of Non-REM sleep and originality (R= .779; p=.034) and a global measure of figural creativity (R= .758; p=.040). There was also a negative correlation between REM sleep and originality (R= -.827; p= .042) . During NREM sleep the CAP rate, which in young people is primarily the A1 subtype, also correlated with originality (R= .765; p =.038). Conclusions: NREM sleep is associated with low levels of cortical arousal and low cortical arousal may enhance the ability of people to access to the remote associations that are critical for creative innovations. In addition, A1 CAP activity reflects frontal activity and the frontal lobes are important for divergent thinking, also a critical aspect of creativity.