Kensuke Ohnishi scite author profile

Kensuke Ohnishi

4Publications

85Citation Statements Received

152Citation Statements Given

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141

Affiliations

Tokyo University of Science, Drug Discovery Laboratory (Norway)

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Synthesis and Biological Activities of Neoechinulin A Derivatives: New Aspects of Structure-Activity Relationships for Neoechinulin A

Kuramochi

Ohnishi

Fujieda

et al. 2008

CHEMICAL & PHARMACEUTICAL BULLETIN

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Peroxynitrite (ONOO), is a potent oxidant that can cause severe cell damage.1) Specifically, peroxynitrite promotes the oxidation of biomolecules such as lipids, proteins and nucleic acids, [2][3][4] as well as the nitration of tyrosine residues in proteins. 5,6) Furthermore, it has been suggested that peroxynitrite formation plays a role in the pathogenesis of neurodegenerative disorders such as Alzheimer's disease and Parkinson's disease. [7][8][9] Neoechinulin A (1), an isoprenyl indole alkaloid, can protect neuronal PC12 cells from ONOO Ϫ -induced death. [10][11][12] We have previously shown that the biological effects, rather than scavenging activity against ONOO Ϫ , are likely to play a role in the cytoprotective action of neoechinulin A.12) However, the precise molecular mechanism remains elusive. To investigate the potential mechanism of action, we have designed and prepared a series of neoechinulin A analogues (2-6). We then examined the structure-activity relationships of these analogues in terms of their anti-nitration and anti-oxidant activities as well as their cytoprotective activity against ONOO Ϫ derived from SIN-1 (3-(4-morpholinyl)sydnonimine hydrochloride) using PC12 cells (Fig. 1). The results showed that: 1) the presence of the C-8/C-9 double bond is indispensable for anti-nitration and anti-oxidant activities as well as cytoprotective activity of neoechinulin A against ONOO Ϫ toxicity; 2) in conjunction with the C-8/C-9 double bond, the presence of an intact diketopiperazine moiety is essential for the anti-nitration activity but not for antioxidant or cytoprotective activity. Results and DiscussionCompound 2 was synthesized from 2-tert-butyl-1H-indole (7) 13) (Chart 1). Methoxy methyl (MOM) protection of 7, followed by the Vilsmeier reaction, gave aldehyde 9. A coupling reaction of the aldehyde 9 with diketopiperazine 10 using tBuOK in DMF afforded 11.14) Subsequent deprotection of protective groups provided the desired product 2. 15)Compound 3 was prepared by coupling of aldehyde 12 with N-Boc-Gly-OEt, followed by treatment of the resulting We synthesized a series of neoechinulin A derivatives and examined the structure-activity relationships in terms of their anti-nitration and anti-oxidant activities as well as their cytoprotective activity against peroxynitrite from SIN-1 (3-(4-morpholinyl)sydnonimine hydrochloride) using PC12 cells. Our results showed that the C-8/C-9 double bond, which constitutes a conjugate system with indole and diketopiperazine moieties of neoechinulin A is essential for anti-nitration and anti-oxidant activities as well as protection against SIN-1 cytotoxicity. The presence of an intact diketopiperazine moiety is an additional requirement for anti-nitration activity but not for the cytoprotective action. Our results suggest that the antioxidant activity or electrophilic nature of the C-8 carbon, both of which are afforded by the C-8/C-9 double bond, may play a role in the cytoprotective properties of this alkaloid.

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Synthesis of Neoechinulin A and Derivatives

Kuramochi¹,

Aoki²,

Nakazaki³

et al. 2008

Synthesis

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Neoechinulin A isolated from Eurotium rubrum showed cytoprotection activity against peroxynitrite generated from SIN-1 [3-(4-morpholinyl)sydnonimine hydrochloride] in PC12 cells. As we are interested in this biological activity, we synthesized neoechinulin A and its derivatives. In this article, we fully report the isolation of natural neoechinulin A and B, a total synthesis of (-)-neoechinulin A, and determination of the absolute configuration of natural neoechinulin A. In addition, we describe herein syntheses of neoechinulin A derivatives, including a biotinylated neoechinulin A derivative, which will be useful for identification of the binding proteins of neoechinulin A.

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Synthesis and Neuroprotective Action of Optically Pure Neoechinulin A and Its Analogs

et al. 2010

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We developed an efficient, stereoselective synthetic method for the diketopiperazine moiety of neoechinulin A and its derivatives. The intramolecular cyclization at 80 ºC proceeded with minimal racemization of the stereogenic center at C-12 on neoechinulin A, even though the cyclization at 110 ºC caused partial racemization. In contrast with these results, the cyclization on diketopiperazine of 8,9-dihydroneoechinulin A derivatives did not cause epimerization of the stereogenic centers, even at 110 °C. We examined the structure-activity relationships for the cytoprotective activity against cytotoxicity induced by 3-morpholinosydnonimine (SIN-1) in nerve growth factor (NGF)-differentiated PC12 cells. The C-8/C-9 double bond, but not the stereogenic center derived from alanine, was found to play a key role in the cytoprotective activity.

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Total Synthesis of (-)-Neoechinulin A

Aoki¹,

Kamisuki²,

Kimoto³

et al. 2006

Synlett

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Kensuke Ohnishi

Synthesis and Biological Activities of Neoechinulin A Derivatives: New Aspects of Structure-Activity Relationships for Neoechinulin A

Synthesis of Neoechinulin A and Derivatives

Synthesis and Neuroprotective Action of Optically Pure Neoechinulin A and Its Analogs

Total Synthesis of (-)-Neoechinulin A

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