Exploring Natural Product Chemistry and Biology with Multicomponent Reactions. 5. Discovery of a Novel Tubulin-Targeting Scaffold Derived from the Rigidin Family of Marine Alkaloids

Frolova, Liliya L.V.; Magedov, Igor I.V.; Romero, Anntherese A.E.; Karki, Menuka; Otero, Isaiah; Hayden, Kathryn; Evdokimov, Nikolai N.M.; Banuls, Laetitia Moreno Y; Rastogi, Shiva S.K.; Smith, Ross; Lu, Shi‐Long; Kiss, Róbert; Shuster, Charles C.B.; Hamel, Ernest; Betancourt, Tania; Rogelj, Snezna; Kornienko, Alexander

doi:10.1021/jm400711t

Cited by 47 publications

(62 citation statements)

References 55 publications

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“…50 Analysis of these data reveals that polygodial ( 1 ) and most of the synthesized derivatives displayed little activity in this cancer cell line panel, with the exception of 9-epipolygodial ( 2 ). Compound 2 was at least 20 times as potent as polygodial ( 1 ) and did not appear to discriminate between apoptosis resistant and apoptosis-sensitive cells by displaying comparable single digit micromolar potencies in both cell types (Table 1).…”

Section: Antiproliferative Activitiesmentioning

confidence: 99%

Synthetic and Biological Studies of Sesquiterpene Polygodial: Activity of 9‐Epipolygodial against Drug‐Resistant Cancer Cells

et al. 2015

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Polygodial, a terpenenoid dialdehyde isolated from Polygonum hydropiper L., is a known TRPV1 agonist. In this investigation a series of polygodial analogues were prepared and investigated for TRPV1 agonistic and anticancer activities. These experiments led to the identification of 9-epipolygodial, possessing antiproliferative potency significantly exceeding that of polygodial. Epipolygodial maintained potency against apoptosis-resistant cancer cells as well as those displaying the MDR phenotype. In addition, a chemical feasibility for the previously proposed mechanism of action of polygodial, involving the Paal-Knorr pyrrole formation with a lysine residue on the target protein, was demonstrated through the synthesis of a stable polygodial pyrrole derivative. These studies reveal rich chemical and biological properties associated with polygodial and its direct derivatives. They should inspire further work in this area aimed at the development of new pharmacological agents or exploration of novel mechanisms of covalent modification of biological molecules with natural products.

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Section: Antiproliferative Activitiesmentioning

confidence: 99%

Synthetic and Biological Studies of Sesquiterpene Polygodial: Activity of 9‐Epipolygodial against Drug‐Resistant Cancer Cells

et al. 2015

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“…However, despite the earlier reports of promising antiproliferative activity against murine leukemia L1210 cells, 11 the rigidins were found to have very little, if any, activity against cultured human cancer cells. 14 Further synthetic investigations led to the development of approaches allowing for the modification of the 7-deazaxanthine skeleton present in the rigidins to obtain the corresponding 7-deazahypoxanthine ( A ), 7-deazaadenine ( B ) and 7-deazapurine ( C ) frameworks (Figure 1). These studies culminated in the discovery of potent antiproliferative activities associated with the synthesized 7-deazahypoxanthines ( A ) and their ability to disrupt microtubule organization in cancer cells by binding to the colchicine site of β-tubulin.…”

Section: Introductionmentioning

confidence: 99%

Synthetic and Biological Studies of Tubulin Targeting C2‐Substituted 7‐Deazahypoxanthines Derived from Marine Alkaloid Rigidins

et al. 2014

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C2-aryl- and C2-alkyl-7-deazahypoxanthines as analogues of marine alkaloid rigidins were prepared utilizing novel synthetic methods developed for the construction of the pyrrolo[2,3-d]pyrimidine ring system. The new compounds exhibited submicromolar to nanomolar antiproliferative potencies against a panel of cell lines including in vitro models for drug resistant tumors, such as glioblastoma, melanoma and non-small-cell lung cancer. A selected representative C2-methyl-7-deazahypoxanthine was found to inhibit microtubule dynamics in cancer cells, lending evidence for tubulin targeting as a mode of action for these compounds in cancer cells. The results of the docking studies utilizing the colchicine site on β-tubulin were consistent with the observed SAR data, including an important finding that derivatization at C2 with long alkyl groups leads to the retention of activity, thus permitting the attachment of a biotin-containing linker for the subsequent proteomics assays. Because many microtubule-targeting compounds are successfully used to fight cancer in the clinic, the reported antitubulin rigidin analogues have significant potential as new anticancer agents.

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“…39 Analysis of these data shows that derivatives with the eliminated C5,C21-dicarbonyl functionality, such as compounds 4–8 and 15–18 , have significantly reduced potencies as would be expected due to the critical importance of this moiety for anticancer activity. In contrast, compounds incorporating modifications of the C18,C19-alkene, such as 10 – 14 , have retained a significant portion of the antiproliferative potency.…”

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confidence: 96%

Fungal metabolite ophiobolin A as a promising anti-glioma agent: In vivo evaluation, structure–activity relationship and unique pyrrolylation of primary amines

Dasari¹,

Masi

Lisy

et al. 2015

Bioorganic & Medicinal Chemistry Letters

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Glioblastoma, the most common form of malignant primary brain tumor, is characterized by resistance to apoptosis, which is largely responsible for the low effectiveness of the classical chemotherapeutic approaches based on apoptosis induction in cancer cells. Previously, a fungal secondary metabolite ophiobolin A was found to have significant activity against apoptosis-resistant glioblastoma cells through the induction of a non-apoptotic cell death, thus, offering an innovative strategy to combat this type of cancer. The current work describes the results of a preliminary evaluation of ophiobolin A in an in vivo glioblastoma model and its chemical derivatization to establish first synthetically generated structure-activity relationship. The synthetic work has also led to the discovery of a unique reaction of ophiobolin A with primary amines suggesting the possibility of pyrrolylation of lysine residues on its intracellular target protein(s).

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Exploring Natural Product Chemistry and Biology with Multicomponent Reactions. 5. Discovery of a Novel Tubulin-Targeting Scaffold Derived from the Rigidin Family of Marine Alkaloids

Cited by 47 publications

References 55 publications

Synthetic and Biological Studies of Sesquiterpene Polygodial: Activity of 9‐Epipolygodial against Drug‐Resistant Cancer Cells

Synthetic and Biological Studies of Sesquiterpene Polygodial: Activity of 9‐Epipolygodial against Drug‐Resistant Cancer Cells

Synthetic and Biological Studies of Tubulin Targeting C2‐Substituted 7‐Deazahypoxanthines Derived from Marine Alkaloid Rigidins

Fungal metabolite ophiobolin A as a promising anti-glioma agent: In vivo evaluation, structure–activity relationship and unique pyrrolylation of primary amines

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