57500-07-9Relevant articles and documents
Targeting nuclear protein TDP-43 by cell division cycle kinase 7 inhibitors: A new therapeutic approach for amyotrophic lateral sclerosis
Rojas-Prats, Elisa,Martinez-Gonzalez, Loreto,Gonzalo-Consuegra, Claudia,Liachko, Nicole F.,Perez, Concepción,Ramírez, David,Kraemer, Brian C.,Martin-Requero, ángeles,Perez, Daniel I.,Gil, Carmen,de Lago, Eva,Martinez, Ana
supporting information, (2020/11/12)
Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease with no known cure. Aggregates of the nuclear protein TDP-43 have been recognized as a hallmark of proteinopathy in both familial and sporadic cases of ALS. Post-translational modifications of this protein, include hyperphosphorylation, cause disruption of TDP-43 homeostasis and as a consequence, promotion of its neurotoxicity. Among the kinases involved in these changes, cell division cycle kinase 7 (CDC7) plays an important role by directly phosphorylating TDP-43. In the present manuscript the discovery, synthesis, and optimization of a new family of selective and ATP-competitive CDC7 inhibitors based on 6-mercaptopurine scaffold are described. Moreover, we demonstrate the ability of these inhibitors to reduce TDP-43 phosphorylation in both cell cultures and transgenic animal models such as C. elegans and Prp-hTDP43 (A315T) mice. Altogether, the compounds described here may be useful as versatile tools to explore the role of CDC7 in TDP-43 phosphorylation and also as new drug candidates for the future development of ALS therapies.
Chemoenzymatic synthesis of cytokinins from nucleosides: Ribose as a blocking group
Oslovsky, Vladimir E.,Solyev, Pavel N.,Polyakov, Konstantin M.,Alexeev, Cyril S.,Mikhailov, Sergey N.
, p. 2156 - 2163 (2018/03/26)
Nucleoside phosphorylases are involved in the salvage pathways of nucleoside biosynthesis and catalyze the reversible reaction of a nucleobase with α-d-ribose-1-phosphate to yield a corresponding nucleoside and an inorganic phosphate. The equilibrium of these reactions is shifted towards nucleosides, especially in the case of purines. Purine nucleoside phosphorylase (PNP, EC 2.4.2.1) is widely used in labs and industry for the synthesis of nucleosides of practical importance. Bacterial PNPs have relatively broad substrate specificity utilizing a wide range of purines with different substituents to form the corresponding nucleosides. To shift the reaction in the opposite direction we have used arsenolysis instead of phosphorolysis. This reaction is irreversible due to the hydrolysis of the resulting α-d-ribose-1-arsenate. As a result, heterocyclic bases are formed in quantitative yields and can be easily isolated. We have developed a novel method for the preparation of cytokinins based on the enzymatic cleavage of the N-glycosidic bond of N6-substituted adenosines in the presence of PNP and Na2HAsO4. According to the HPLC analysis the conversion proceeds in quantitative yields. In the proposed strategy the ribose residue acts as a protective group. No contamination of the final products with AsO43- has been detected via HPLC-HRMS; simple analytical arsenate detection via ESI-MS has been proposed.
An efficient synthesis of substituted cytosines and purines under focused microwave irradiation
Huang, Ling-Kuen,Cherng, Yen-Chih,Cheng, Yann-Ru,Jang, Jing-Pei,Chao, Yi-Ling,Cherng, Yie-Jia
, p. 5323 - 5327 (2008/02/01)
A rapid nucleophilic displacement reaction of 6-chloropurine, 2-amino-6-chloropurine and 5-bromocytosine with various nucleophiles under focused microwave irradiation is described. Using this method, the desired products were obtained with the yields up to 99% in?a?short reaction time.
