Michael Thutewohl scite author profile

Posttranslational modification of proteins with farnesyl and geranylgeranyl isoprenoids is a widespread phenomenon in eukaryotic organisms. Isoprenylation is conferred by three protein prenyltransferases: farnesyl transferase (FTase), geranylgeranyl transferase type-I (GGTase-I), and Rab geranylgeranyltransferase (RabGGTase). Inhibitors of these enzymes have emerged as promising therapeutic compounds for treatment of cancer, viral and parasite originated diseases, as well as osteoporosis. However, no generic nonradioactive protein prenyltransferase assay has been reported to date, complicating identification of enzyme-specific inhibitors. We have addressed this issue by developing two fluorescent analogues of farnesyl and geranylgeranyl pyrophosphates {3,7-dimethyl-8-(7-nitro-benzo[1,2,5]oxadiazol-4-ylamino)-octa-2,6-diene-1}pyrophosphate (NBD-GPP) and {3,7,11-trimethyl-12-(7-nitro-benzo[1,2,5]oxadiazo-4-ylamino)-dodeca-2,6,10-trien-1} pyrophosphate (NBD-FPP), respectively. We demonstrate that these compounds can serve as efficient lipid donors for prenyltransferases. Using these fluorescent lipids, we have developed two simple (SDS-PAGE and bead-based) in vitro prenylation assays applicable to all prenyltransferases. Using the SDS-PAGE assay, we found that, in contrast to previous reports, the tyrosine phosphatase PRL-3 may possibly be a dual substrate for both FTase and GGTase-I. The on-bead prenylation assay was used to identify prenyltransferase inhibitors that displayed nanomolar affinity for RabGGTase and FTase. Detailed analysis of the two inhibitors revealed a complex inhibition mechanism in which their association with the peptide binding site of the enzyme reduces the enzyme's affinity for lipid and peptide substrates without competing directly with their binding. Finally, we demonstrate that the developed fluorescent isoprenoids can directly and efficiently penetrate into mammalian cells and be incorporated in vivo into small GTPases.

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Manumycin A and Its Analogues Are Irreversible Inhibitors of Neutral Sphingomyelinase

Arenz

Thutewohl

Block

et al. 2001

ChemBioChem

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Valuable tools for experimental anti‐inflammatory therapy and for clarifying the biological role of neutral sphingomyelinase and ceramide might be represented by manumycins. The antibiotic manumycin A (1), known as a Ras farnesyltransferase inhibitor, and some of its analogues were identified as irreversible inhibitors of neutral sphingomyelinase. The simple analogue 2 is readily accessible, stable and hitherto represents the most potent irreversible inhibitor of neutral sphingomyelinase.

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Untitled

et al. 1999

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Design and Synthesis of Potent and Selective Azaindole‐Based Rho Kinase (ROCK) Inhibitors

et al. 2008

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Rho kinase plays a pivotal role in several cellular processes such as vasoregulation, making it a suitable target for the treatment of hypertension and related disorders. We discovered a new compound class of Rho kinase (ROCK) inhibitors containing a 7-azaindole hinge-binding scaffold tethered to an aminopyrimidine core. Herein we describe the structure-activity relationships elucidated through biochemical and functional assays. The introduction of suitable substituents at the 3-position of the bicyclic moiety led to an increase in activity, which was required to design compounds with favorable pharmacokinetic profile. Azaindole 32 was identified as a highly selective and orally available ROCK inhibitor able to cause a sustained blood pressure reduction in vivo.

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Identification of mono- and bisubstrate inhibitors of protein farnesyltransferase and inducers of apoptosis from a pepticinnamin E library

Thutewohl

Kissau

Popkirova

et al. 2003

Bioorganic & Medicinal Chemistry

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Synthesis of 4-Substituted 7-Azaindole Derivatives via Pd-Catalyzed C-N and C-O Coupling

Thutewohl¹,

Schirok²,

Bennabi³

et al. 2006

Synthesis

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Identification of hPin1 inhibitors that induce apoptosis in a mammalian Ras transformed cell line

Bayer

Thutewohl

Christner³

et al. 2005

Chem. Commun.

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Efficient synthesis of 4-O- and C-substituted-7-azaindoles

Figueroa‐Pérez¹,

Bennabi²,

Schirok³

et al. 2006

Tetrahedron Letters

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