2-Sulfonyl-oxetanes have been prepared, affording non-planar structures with desirable physicochemical properties for fragment based drug discovery. The oxetane motif was formed by an intramolecular C-C bond formation. The fragments were further functionalised via organometallic intermediates at the intact oxetane and aromatic rings.
Tumors have evolved a variety
of methods to reprogram conventional
metabolic pathways to favor their own nutritional needs, including
glutaminolysis, the first step of which is the hydrolysis of glutamine
to glutamate by the amidohydrolase glutaminase 1 (GLS1). A GLS1 inhibitor
could potentially target certain cancers by blocking the tumor cell’s
ability to produce glutamine-derived nutrients. Starting from the
known GLS1 inhibitor bis-2-(5-phenylacetamido-1,2,4-thiadiazol-2-yl)ethyl
sulfide, we describe the medicinal chemistry evolution of a series
from lipophilic inhibitors with suboptimal physicochemical and pharmacokinetic
properties to cell potent examples with reduced molecular weight and
lipophilicity, leading to compounds with greatly improved oral exposure
that demonstrate in vivo target engagement accompanied by activity
in relevant disease models.
2-(Arylsulfonyl)oxetanes have been prepared as new structural motifs of interest for medicinal chemistry. These are designed to fit within fragment space and be suitable for screening in fragment based drug discovery, as well as being suitable for further elaboration or incorporation into drug-like compounds. The oxetane ring is constructed through an efficient C-C bond forming cyclisation which allows the incorporation of a wide range of aryl-sulfonyl groups. Furthermore, biaryl-containing compounds can be accessed through Suzuki-Miyaura coupling from halogenated derivatives. With a number of oxetane containing fragment compounds available, their pH stability was assessed, indicating good half-life values for mono-substituted aryl sulfonyl oxetanes across the pH range (1 to 10). Solubility and metabolic stability data is also reported. Finally, the conformation of the fragments is assessed computationally, providing an indication of possible binding orientations.
Magnesiated chloropyrimidine and chloropyridine derivatives, obtained by deprotonation with TMPMgClLiCl at room temperature, undergo facile ring-opening reactions with five-and six-membered N-Boc and N-Bn cyclic sulfamidates. After an acidic workup, the adducts undergo rapid intramolecular cyclisation on basification to give highly functionalised stereodefined azaindolines and azatetrahydroquinolines in good yields.
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