Design and Synthesis of Selective Phosphodiesterase 4D (PDE4D) Allosteric Inhibitors for the Treatment of Fragile X Syndrome and Other Brain Disorders.
Mark E GurneyRichard A NugentXuesheng MoJanice A SindacTimothy J HagenDavid FoxJames M O'DonnellChong ZhangYing XuHan-Ting ZhangVincent E GroppiMarc BailieRonald E WhiteDonna L RomeroA Samuel VellekoopJoel R WalkerMatthew D SurmanLei ZhuRobert F CampbellPublished in: Journal of medicinal chemistry (2019)
Novel pyridine- and pyrimidine-based allosteric inhibitors are reported that achieve PDE4D subtype selectivity through recognition of a single amino acid difference on a key regulatory domain, known as UCR2, that opens and closes over the catalytic site for cAMP hydrolysis. The design and optimization of lead compounds was based on iterative analysis of X-ray crystal structures combined with metabolite identification. Selectivity for the activated, dimeric form of PDE4D provided potent memory enhancing effects in a mouse model of novel object recognition with improved tolerability and reduced vascular toxicity over earlier PDE4 inhibitors that lack subtype selectivity. The lead compound, 28 (BPN14770), has entered midstage, human phase 2 clinical trials for the treatment of Fragile X Syndrome.
Keyphrases
- clinical trial
- mouse model
- amino acid
- working memory
- case report
- high resolution
- open label
- magnetic resonance imaging
- magnetic resonance
- transcription factor
- multiple sclerosis
- computed tomography
- subarachnoid hemorrhage
- replacement therapy
- resting state
- dual energy
- blood brain barrier
- image quality
- cerebral ischemia
- double blind
- oxide nanoparticles