499973-10-3Relevant articles and documents
NOVEL LYSOPHOSPHATIDIC ACID DERIVATIVE
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Paragraph 0822-0824, (2021/05/28)
PROBLEM TO BE SOLVED: To provide a compound that specifically activates an LPA4 receptor, and a pharmaceutical composition containing the same. SOLUTION: This invention relates to a novel lysophosphatidic acid derivative that has an agonistic action on an LPA4 receptor and is useful for the prevention and/or treatment of a disease with angiodysplasia caused by the LPA4 receptor, or a disease associated with angiopathy, or symptoms associated therewith. This invention also relates to a pharmaceutical composition containing the lysophosphatidic acid derivative. SELECTED DRAWING: None COPYRIGHT: (C)2021,JPOandINPIT
Remote Nucleophilic Allylation by Allylrhodium Chain Walking
Groves, Alistair,Martínez, Jose I.,Smith, Joshua J.,Lam, Hon Wai
supporting information, p. 13432 - 13436 (2018/09/21)
Metal migration through a carbon chain is a versatile method for achieving remote functionalization. However, almost all known examples involve the overall net migration of alkylmetal species. Here, we report that allylrhodium species obtained from hydrorhodation of 1,3-dienes undergo chain walking toward esters, amides, or (hetero)arenes over distances of up to eight methylene units. The final, more highly conjugated allylrhodium species undergo nucleophilic allylation with aldehydes and with an imine to give Z-homoallylic alcohols and amines, respectively.
Further studies on 2,4-diamino-5-(2′,5′-disubstituted benzyl)pyrimidines as potent and selective inhibitors of dihydrofolate reductases from three major opportunistic pathogens of AIDS
Rosowsky, Andre,Forsch, Ronald A.,Queener, Sherry F.
, p. 1726 - 1736 (2007/10/03)
As part of an ongoing effort to discover novel small-molecule antifolates combining the enzyme-binding species selectivity of trimethoprim (TMP) with the potency of piritrexim (PTX), 10 previously unreported 2,4-diamino-5-(2′-methoxy-5′-substituted)benzylpyrimidines (2-11) containing a carboxyl group at the distal end of the 5′-substituent were synthesized and tested as inhibitors of dihydrofolate reductase (DHFR) from Pneumocystis carinii (Pc), Toxoplasma gondii (Tg), and Mycobacterium avium (Ma), three of the opportunistic pathogens frequently responsible for life-threatening illness in people with impaired immune systems as a result of HIV infection or immunosuppressive chemotherapy. The selectivity index of DHFR inhibition was evaluated by comparing the potency of each compound against the parasite enzymes with its potency against rat liver DHFR. 2,4-Diamino-5-[5′-(5-carboxy-1-pentynyl)-2′- methoxybenzyl]pyrimidine (3) inhibited Pc DHFR with a selectivity index of 79 and was 430 times more potent than TMP. 2,4-Diamino-5-[5′-(4-carboxy-1-butynyl)-2′-methoxybenzyl] pyrimidine (2), with one less carbon than 3 in the side chain, had a selectivity index of 910 against Ma DHFR and was 43 times more potent than TMP. 2,4-Diamino-5-[5′-(5-carboxypentyl)-2′-methoxybenzyl]pyri midine (6) had a selectivity index of 490 against Tg DHFR and was 320 times more potent than TMP. 2,4-Diamino-5-[5′-(6-carboxy-1-hexynyl)-2′-methoxybenzyl] pyrimidine (4), with one more carbon than 3, was less potent against all three of the parasite enzymes than either 3 or 6 and also had a lower selectivity index than 3 against the Pc enzyme. However, 4 was the only member of the series with a selectivity index of >300 against both Tg and Ma DHFR. Given that PTX is at least 10 times more potent against rat DHFR than against P. carinii or T. gondii DHFR and that the selectivity index of several of the compounds matches or exceeds that of TMP as well as PTX, our results suggest that it may be possible to develop clinically useful nonclassical antifolates that are both potent and selective against the major opportunistic pathogens of AIDS.