Peter J. Thornton scite author profile

Since loss of function mutations of PINK1 lead to early onset Parkinson’s disease, there has been growing interest in the discovery of small molecules that amplify the kinase activity of PINK1. We herein report the design, synthesis, serum stability, and hydrolysis of four kinetin riboside ProTides. These ProTides, along with kinetin riboside, activated PINK1 in cells independent of mitochondrial depolarization. This highlights the potential of modified nucleosides and their phosphate prodrugs as treatments for neurodegenerative diseases.

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Nucleoside Phosphate and Phosphonate Prodrug Clinical Candidates

Thornton

Kadri

Miccoli

et al. 2016

J. Med. Chem.

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Nucleoside monophosphates and monophosphonates have been known for a long time to exert favorable pharmacological effects upon intracellular delivery. However, their development as drug molecules has been hindered by the inherent poor druglike properties of the monophosphate and monophosphonate groups. These include inefficient cellular uptake and poor in vivo stability, with this latter drawback being most relevant to monophosphates than monophosphonates. To address these limitations, numerous monophosphate and monophosphonate prodrug strategies have been developed and applied in the discovery of nucleoside monophosphate and monophosphonate prodrugs that can treat viral infections and cancer. The approval of sofosbuvir, a nucleoside monophosphate prodrug, highlighted the success to be had by employing these prodrug technologies in the discovery of nucleotide therapeutics. In this Miniperspective, we discuss the different key monophosphate and monophosphonate nucleoside prodrugs that entered clinical development, some of which may in the future be approved to treat various human diseases.

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Formation of a Hydrogen-Bonded Barbiturate [2]-Rotaxane

et al. 2014

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Reversible Photocapture of a [2]Rotaxane Harnessing a Barbiturate Template

et al. 2014

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Photoirradiation of a hydrogen-bonded molecular complex comprising acyclic components, namely, a stoppered thread (1) with a central barbiturate motif and an optimized doubly anthracene-terminated acyclic Hamilton-like receptor (2b), leads to an interlocked architecture, which was isolated and fully characterized. The sole isolated interlocked photoproduct (Φ = 0.06) is a [2]rotaxane, with the dimerized anthracenes assuming a head-to-tail geometry, as evidenced by NMR spectroscopy and consistent with molecular modeling (PM6). A different behavior was observed on irradiating homologous molecular complexes 1⊂2a, 1⊂2b, and 1⊂2c, where the spacers of 2a, 2b, and 2c incorporated 3, 6, and 9 methylene units, respectively. While no evidence of interlocked structure formation was observed following irradiation of 1⊂2a, a kinetically labile rotaxane was obtained on irradiating the complex 1⊂2c, and ring slippage was revealed. A more stable [2]rotaxane was formed on irradiating 1⊂2b, whose capture is found to be fully reversible upon heating, thereby resetting the system, with some fatigue (38%) after four irradiation–thermal reversion cycles.

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Supramolecular Architectures Incorporating Hydrogen‐Bonding Barbiturate Receptors

et al. 2015

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An overview is presented of the representative members of the wide range of supramolecular host-guest complexes and polymers formed through the association of complementary hydrogen-bonding motifs comprising barbiturates (or structurally related cyanurates in specific cases) and Hamilton-type, bis(amidopyridine) receptor motifs, which offer strong selective binding in non-competitive media. A particular emphasis is placed on photoaddressable systems.Scheme 3. Hydrogen-bonding effector-mediated conformational reconstitution with a fused Hamilton-receptor oligomer (9). [18] Scheme 4. A linear supramolecular polymer from a hydrogen-bonded receptor (11) and a ditopic cyanurate (12). [19] Asian Scheme 7. Electronic energy transfer from a dansyl donor to a free-base porphyrin acceptor within a hydrogen-bonded scaffold. [30] Scheme 8. Self-assembled mixed monolayer (SAM) on a gold surface for fluorescence read-out of molecular recognition at a membrane-liquid interface. [32] Asian

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Peter J. Thornton

Kinetin Riboside and Its ProTides Activate the Parkinson’s Disease Associated PTEN-Induced Putative Kinase 1 (PINK1) Independent of Mitochondrial Depolarization

Nucleoside Phosphate and Phosphonate Prodrug Clinical Candidates

Formation of a Hydrogen-Bonded Barbiturate [2]-Rotaxane

Reversible Photocapture of a [2]Rotaxane Harnessing a Barbiturate Template

Supramolecular Architectures Incorporating Hydrogen‐Bonding Barbiturate Receptors

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