The ProTide (pronucleotide) approach is a prodrug strategy elaborated to deliver nucleoside monophosphate into the cell, circumventing the first and inefficient rate-limiting phosphorylation step of nucleosides and improving the cellular penetration of nucleotides. The ProTide of a nucleoside phosphate is a phosphoramidate prodrug consisting of an amino acid ester promoiety linked via P-N bond to a nucleoside aryl phosphate. Such prodrugs have increased lipophilicity and thus are capable of altering cell and tissue distribution. The ProTide technology was successfully and extensively applied to a wide variety of nucleoside phosphates, endowed with antiviral and anticancer activity. This unit describes two different synthetic strategies allowing the preparation of phosphoramidates of 6-O-methyl-2'-β-C-methylguanosine as model compounds for nucleosides having only the 5'-OH as reactive hydroxyl group, and phosphoramidates of 2'-β-D-arabinouridine (AraU) as model compounds for nucleosides containing two or more reactive hydroxyl groups.
The ProTide (pan> class="Chemical">pronucleotide) approach is a prodrug strategy elaborated to deliver nucleoside monophosphate into the cell, circumventing the first and inefficient rate-limiting phosphorylation step of nucleosides and improving the cellular penetration of nucleotides. The ProTide of a nucleoside phosphate is a phosphoramidate prodrug consisting of an amino acid ester promoiety linked via P-N bond to a nucleoside aryl phosphate. Such prodrugs have increased lipophilicity and thus are capable of altering cell and tissue distribution. The ProTide technology was successfully and extensively applied to a wide variety of nucleoside phosphates, endowed with antiviral and anticancer activity. This unit describes two different synthetic strategies allowing the preparation of phosphoramidates of 6-O-methyl-2'-β-C-methylguanosine as model compounds for nucleosides having only the 5'-OH as reactive hydroxyl group, and phosphoramidates of 2'-β-D-arabinouridine (AraU) as model compounds for nucleosides containing two or more reactive hydroxyl groups.
Authors: Daniel M C Schwarz; Sarah K Williams; Maxwell Dillenburg; Carston R Wagner; Jason E Gestwicki Journal: ACS Med Chem Lett Date: 2020-08-10 Impact factor: 4.345
Authors: Rukesh Chinthapatla; Mohamad Sotoudegan; Thomas Anderson; Ibrahim M Moustafa; Kellan T Passow; Samantha A Kennelly; Ramkumar Moorthy; David Dulin; Joy Y Feng; Daniel A Harki; Robert Kirchdoerfer; Craig E Cameron; Jamie J Arnold Journal: bioRxiv Date: 2022-08-11