Asymmetric Synthesis of β-Lactams Through the Staudinger Reaction and Their Use as Building Blocks of Natural and Nonnatural Products

Abstract: In the last two decades, the better understanding of the mechanistic aspects of the beta-lactams' biological activity and their inhibition, and the chemical exploitation of beta-lactams as synthetic intermediates in organic chemistry, have experienced a continuous and somewhat complementary advance. A prerequisite for such a development has been the accessibility of enantiopure beta-lactams. The latter are now routinely prepared most often through the ketene-imine cycloaddition reaction, also termed the Staudi… Show more

“…We are specifically interested in the development of novel heterocyclic ring scaffolds as ER antagonists 32 . Natural and synthetic azetidinone derivatives occupy a central place among medicinally important compounds due to their diverse and interesting biological activities 33 . Their importance is no longer exclusive due to the extensive clinical use of the b-lactam antibiotics but also because of their potential as intermediates in the synthesis of other types of compounds of biological interest.…”

Development of the β-lactam type molecular scaffold for selective estrogen receptor α modulator action: synthesis and cytotoxic effects in MCF-7 breast cancer cells

“…We are specifically interested in the development of novel heterocyclic ring scaffolds as ER antagonists 32 . Natural and synthetic azetidinone derivatives occupy a central place among medicinally important compounds due to their diverse and interesting biological activities 33 . Their importance is no longer exclusive due to the extensive clinical use of the b-lactam antibiotics but also because of their potential as intermediates in the synthesis of other types of compounds of biological interest.…”

Development of the β-lactam type molecular scaffold for selective estrogen receptor α modulator action: synthesis and cytotoxic effects in MCF-7 breast cancer cells

“…We also conducted the reaction of the 2-unsubstituted dibenzo[b,f] [1,4]oxazepine (4a) with pentamethyleneketene affording spiro-β-lactam derivative 5a in satisfactory yield (56%) companied by amide 6a (Entry 6, Table 1). According to our previous results and suggested model, 28,29 imines with electron-deficient substituents favor the formation of β-lactam derivatives with an increased ring closure rate.…”

“…[1][2][3][4][5][6] For instance, the antibiotics penicillin, penam and penem have fused thiazolidine-β-lactam structures, and the antibiotics cephalosporin and cephem are fused dihydrothiazine-β-lactams. [1][2][3][4][5][6] The synthesis of bicyclic β-lactams has been a desirable goal since the discovery of penicillin and cephalosporin. Numerous heterocycle-fused β-lactam derivatives have been synthesized and assayed for biological activities.…”

“…Numerous heterocycle-fused β-lactam derivatives have been synthesized and assayed for biological activities. 1,4,5 Recently, spiro-β-lactams became particularly interesting compounds because their antiviral 7 and antibacterial properties 8 as well as their inhibition of cholesterol absorption 9 make them potentially useful candidates for drug development. They can also be used as β-turn mimetics in peptide chemistry [10][11][12] and, particularly 4-spiro-β-lactams, are synthetic precursors for cyclic α,α-disubstituted β-amino acids and peptide derivatives.…”

Synthesis of novel spiro fused polycyclic β-lactam derivatives

“…[9,10] Moreover, b-lactams are practical intermediates for the synthesis of a variety of high added value products (b-lactam synthon method). [11,12] In the peptidomimetics field, the blactam nucleus has also been used to stabilize peptide conformations, namely reverse b-turns. [13] The interest of b-lactams in these three fields, biomedicine, organic synthesis and peptidomimetics, has encouraged extensive efforts toward the preparation of new 2-azetidinone derivatives.…”

Simple, Highly Enantioselective Access to Quaternary 1,3,4,4‐Tetrasubstituted β‐Lactams from Amino Acids: A Solid‐Phase Approach