A Mild Method for the Synthesis of Carbamate-Protected Guanidines Using the Burgess Reagent

A simple method for the synthesis of carbamate-protected guanidines from primary amines is described. A variety of thioureas derived from primary amines and isothiocyanates react with the Burgess reagent to give the corresponding guanidines via either a stepwise or one-pot procedure. By tuning the carbamoyl units of isothiocyanates and the Burgess reagent, differentially <i>N,N′</i>-diprotected guanidines can be obtained. Selective deprotection of the products affords <i>N-</i>monoprotected guanidines

Practical Manufacturing Process for Baloxavir Marboxil: Effective Selection and Replacement of Protective Group toward Enhancement of Crystallization-Induced Diastereomer Transformation

Baloxavir marboxil (BXM) is an influenza antiviral drug that exploits a cap-dependent endonuclease (CEN) inhibitor. The synthesis route used in the initial CMC development study had several problems hampering scale-up, such as poor stereochemical outcome which decreased the yield, usage of a corrosive reagent, and a cumbersome protocol for the key step. We addressed these problems to enable practical and operation-friendly manufacture of BXM at a larger production scale for early and successive CMC development. The new route includes the following steps: (1) a magnesium-mediated alkoxy displacement reaction to prepare an intermediate without loss of optical purity and (2) diastereoselective preparation of an intermediate via a dehydration condensation reaction with a crystallization-induced diastereomer transformation (CIDT) process. This facile route enabled scalable manufacturing to supply BXM