Martin Klumpp scite author profile

Summary Toll-Like Receptor (TLR) signaling is a key component of innate immunity. Aberrant TLR activation leads to immune disorders via dysregulation of cytokine production, such as IL-12/23. Herein we identify and characterize PIKfyve, a lipid kinase, as a critical player in TLR signaling using apilimod as an affinity tool. Apilimod is a potent small molecular inhibitor of IL-12/23 with an unknown target and has been evaluated in clinical trials for patients with Crohn’s disease or rheumatoid arthritis. Using a chemical genetics approach, we show that it binds to PIKfyve and blocks its phosphotransferase activity, leading to selective inhibition of IL-12/23p40. Pharmacological or genetic inactivation of PIKfyve is necessary and sufficient for suppression of IL-12/23p40 expression. Thus, we have uncovered a novel phosphoinositide-mediated regulatory mechanism that controls TLR signaling.

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Structure of the Substrate Binding Domain of the Thermosome, an Archaeal Group II Chaperonin

Klumpp

Baumeister

Essen

1997

Cell

152

138

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The crystal structure of the substrate binding domain of the thermosome, the archaeal group II chaperonin, has been determined at 2.3 A resolution. The core resembles the apical domain of GroEL but lacks the hydrophobic residues implied in binding of substrates to group I chaperonins. Rather, a large hydrophobic surface patch is found in a novel helix-turn-helix motif, which is characteristic of all group II chaperonins including the eukaryotic TRiC/CCT complex. Models of the holochaperonin, which are consistent with cryo electron microscopy data, suggest a dual role of this helical protrusion in substrate binding and controlling access to the central cavity independent of a GroES-like cochaperonin.

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Discovery of Novel Dot1L Inhibitors through a Structure-Based Fragmentation Approach

Chen

Zhu

Stauffer

et al. 2016

ACS Med. Chem. Lett.

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Oncogenic MLL fusion proteins aberrantly recruit Dot1L, a histone methyltransferase, to ectopic loci, leading to local hypermethylation of H3K79 and misexpression of HoxA genes driving MLL-rearranged leukemias. Inhibition of the methyltransferase activity of Dot1L in this setting is predicted to reverse aberrant H3K79 methylation, leading to repression of leukemogenic genes and tumor growth inhibition. In the context of our Dot1L drug discovery program, high-throughput screening led to the identification of 2, a weak Dot1L inhibitor with an unprecedented, induced pocket binding mode. A medicinal chemistry campaign, strongly guided by structure-based consideration and ligand-based morphing, enabled the discovery of 12 and 13, potent, selective, and structurally completely novel Dot1L inhibitors.

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Group II chaperonin in an open conformation examined by electron tomography

Nitsch

Walz

Typke

et al. 1998

Nat Struct Mol Biol

101

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Targeting Ceramide Metabolism with a Potent and Specific Ceramide Kinase Inhibitor

Gräf

Klumpp²,

Habig³

et al. 2008

Mol Pharmacol

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Ceramide kinase (CerK) produces the bioactive lipid ceramide-1-phosphate (C1P) and appears as a key enzyme for controlling ceramide levels. In this study, we discovered and characterized adamantane-1-carboxylic acid (2-benzoylamino-benzothiazol-6-yl)amide (NVP-231), a potent, specific, and reversible CerK inhibitor that competitively inhibits binding of ceramide to CerK. NVP-231 is active in the low nanomolar range on purified as well as cellular CerK and abrogates phosphorylation of ceramide, resulting in decreased endogenous C1P levels. When combined with another ceramide metabolizing inhibitor, such as tamoxifen, NVP-231 synergistically increased ceramide levels and reduced cell growth. Therefore, NVP-231 represents a novel and promising compound for controlling ceramide metabolism that may provide insight into CerK physiological function.

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Martin Klumpp

PIKfyve, a Class III PI Kinase, Is the Target of the Small Molecular IL-12/IL-23 Inhibitor Apilimod and a Player in Toll-like Receptor Signaling

Structure of the Substrate Binding Domain of the Thermosome, an Archaeal Group II Chaperonin

Discovery of Novel Dot1L Inhibitors through a Structure-Based Fragmentation Approach

Group II chaperonin in an open conformation examined by electron tomography

Targeting Ceramide Metabolism with a Potent and Specific Ceramide Kinase Inhibitor

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