Caffeine Inhibits Notum Activity by Binding at the Catalytic Pocket

Caffeine Inhibits Notum Activity by Binding at the Catalytic Pocket

ARTICLE https://doi.org/10.1038/s42003-020-01286-5 OPEN Caffeine inhibits Notum activity by binding at the catalytic pocket ✉ ✉ Yuguang Zhao 1 , Jingshan Ren 1, James Hillier1, Weixian Lu1 & Edith Yvonne Jones1 1234567890():,; Notum inhibits Wnt signalling via enzymatic delipidation of Wnt ligands. Restoration of Wnt signalling by small molecule inhibition of Notum may be of therapeutic benefit in a number of pathologies including Alzheimer’s disease. Here we report Notum activity can be inhibited by caffeine (IC50 19 µM), but not by demethylated caffeine metabolites: paraxanthine, theo- bromine and theophylline. Cellular luciferase assays show Notum-suppressed Wnt3a func- tion can be restored by caffeine with an EC50 of 46 µM. The dissociation constant (Kd) between Notum and caffeine is 85 µM as measured by surface plasmon resonance. High- resolution crystal structures of Notum complexes with caffeine and its minor metabolite theophylline show both compounds bind at the centre of the enzymatic pocket, overlapping the position of the natural substrate palmitoleic lipid, but using different binding modes. The structural information reported here may be of relevance for the design of more potent brain- accessible Notum inhibitors. ✉ 1 Division of Structural Biology, Wellcome Centre for Human Genetics, University of Oxford, Oxford OX3 7BN, UK. email: [email protected]; [email protected] COMMUNICATIONS BIOLOGY | (2020) 3:555 | https://doi.org/10.1038/s42003-020-01286-5 | www.nature.com/commsbio 1 ARTICLE COMMUNICATIONS BIOLOGY | https://doi.org/10.1038/s42003-020-01286-5 he Wnt signalling pathway is fundamental for embryonic ETC-15927. Both Porcupine and Notum act upon the same pal- Tdevelopment and adult tissue homoeostasis1. In the ner- mitoleic acid substrate. These clues prompted us to investigate vous system, Wnt signalling is important for neuronal whether caffeine could also target Notum. Here we demonstrate differentiation, development2 and neural stem cell maintenance3. the ability of caffeine to bind to and inhibit Notum, properties Wnt ligands such as Wnt7a are essential for neural stem cell self- that are not shared by caffeine metabolites. We also report the renewal and neural progenitor cell cycle progression4; Wnt5a can high-resolution crystal structure of the caffeine–Notum complex, promote adult neuron stem cell differentiation and development5. which could serve as the basis for future attempts to develop more FZD receptors, including FZD3, 5 and 10, are involved in neural potent Notum inhibitory drugs. development6–8 and the Wnt co-receptor LRP6 is required for maintenance of neuron synapses9. Results Aging has been suggested to lead to downregulation of Wnt 10 Caffeine inhibits Notum activity. To investigate if caffeine could signalling and consequent attenuation of neurogenesis , poten- fi tially contributing to neurodegenerative diseases such as Alzhei- inhibit Notum activity, we rst used an OPTS enzyme assay. ’ 11 OPTS is a common lipase substrate with an octanoyl lipid linked mer s disease . A number of lines of evidence support this fl hypothesis. A common genetic variant (I1062V) of LRP6 repor- to a uorescent moiety. It is not a natural Notum substrate; however, it can be used to quantify the enzymatic activity of ted to have slightly less Wnt signalling potency, is associated with fi 23,25,28 late onset Alzheimer’s diseases12. Higher levels of a Wnt negative puri ed Notum protein . As shown in Fig. 1a, caffeine can modulator, Dickkopf-1, are associated with aging and involved in inhibit Notum activity with an IC50 of 19 µM. Caffeine (1,3,7- neuronal degeneration in Alzheimer’s disease13,14, while deple- trimethylxanthine) is quickly metabolized by demethylation into paraxanthine (1,7-dimethylxanthine), theobromine (1,5-dime- tion of Dickkopf-1 restores neurogenesis in old-aged neural 29 progenitor cells15. Collectively, these observations suggest that thylxanthine) and theophylline (1,3-dimethylxanthine) .We interventions targeted to increase Wnt signalling may offer could not detect obvious Notum inhibitory effects in the OPTS therapeutic benefits in Alzheimer’s disease. enzyme assay for any of the demethylated caffeine metabolites, We focused our attention on a recently characterized Wnt O- although they only differ from caffeine by one methyl group. To palmitoleoyl-L-serine hydrolase, Notum, which removes an further test if caffeine could inhibit Notum activity on its natural essential Wnt lipid moiety to deactivate Wnt signalling16. Notum substrates, Wnt ligands, we employed a TOP-Flash assay to measure levels of Wnt/β-catenin signalling using a luciferase is important for neural development and head induction both in 30 invertebrates (Planarian)17 and vertebrates (Xenopus)18. Fur- reporter . Notum was mixed with caffeine at varying con- thermore, Notum expression is detected in mammal brain hip- centrations together with Wnt3a and applied to the HEK293-STF 19 cell line (which harbours the TCF-LEF Super TOP-FLASH luci- pocampal neurons ; Notum plays a key role in adult ventricular- 31 18 subventricular zone (V-SVZ) neurogenesis20. Evidence exists that ferase reporter ). Similar to a previous observation , we found biological aging may result from increased Notum expression, that Notum did not completely suppress Wnt3a induced activity, while inhibition of Notum may rejuvenate stem cells21. Thus, (i.e. there is a baseline luciferase activity of ~30%), however, we small molecules that inhibit Notum could be used to restore observed that caffeine restored Notum-suppressed Wnt3a activity impaired Wnt signalling and increase adult neurogenesis20, which with an EC50 value of 46 µM (Fig. 1b). To rule out any Notum- may be beneficial in pathologies such as Alzheimer’s disease. A independent effects of caffeine on Wnt3a-dependent TCF/LEF number of Notum inhibitors have been identified recently, activation, we performed a TOP-FLASH luciferase assay without however these molecules are unable to cross the blood-brain the addition of Notum. Caffeine did not affect luciferase activity barrier22–24. To guide the development of brain-accessible Notum at concentrations up to 1 mM (Supplementary Fig. 1). inhibitors, we turned our attention to the identification of natural products that can freely cross the blood-brain barrier. Our recent Caffeine binds Notum directly. To gain more direct, biophysical, X-ray crystallography-based fragment screen identified a hit with evidence of caffeine binding to Notum, we carried out surface similar chemical structure to melatonin, which led to the finding plasmon resonance (SPR) experiments. Notum was expressed, that this pineal gland secreted hormone can act as an inhibitor for in vivo biotinylated in HEK 293T cells, and loaded onto a Notum25. Caffeine and melatonin both show neuroprotective streptavidin chip as the ligand. Caffeine and its metabolites, effects and caffeine can potentiate the effects of melatonin in the paraxanthine, theobromine and theophylline were used as ana- inhibition of Aβ oligomerization and modulation of the Tau- lytes. A clear dose-dependent response was recorded for caffeine mediated pathway26. Additionally, caffeine is a chemical base (Fig.2a and Supplementary Fig. 2a). The calculated dissociation of the Porcupine (Wnt palmitoleic lipid transferase) inhibitor, constant (Kd) is 85 µM. There is also weak binding by a b t 100 i 100 v i t 80 c A 80 e s EC50 =45.8 µM 60 a r 60 e f i 40 c u 40 L IC50 =18.6 µM 20 e v i t 20 a l Relative Notum Activity Notum Relative 0 e Ry 0 0120 1 2 3 Log concentration(µM) Log concentration(µM) Fig. 1 Notum inhibitory potency of caffeine. a Notum in vitro enzyme assay with OPTS as substrate. b TOP-Flash luciferase assay measuring the effect of caffeine on the ability of Notum to suppress Wnt3a activity. The maximal response was set as 100%. The curves were fitted with nonlinear regression (log inhibitor concentration versus normalized response). The experiments were performed in triplicates (n = 3). 2 COMMUNICATIONS BIOLOGY | (2020) 3:555 | https://doi.org/10.1038/s42003-020-01286-5 | www.nature.com/commsbio COMMUNICATIONS BIOLOGY | https://doi.org/10.1038/s42003-020-01286-5 ARTICLE a b 100 40 80 30 60 20 40 Notum : Cafeine Notum : Theophylline Kd = 85 µM Kd = 6.8 mM 10 Resonance Units(RU) 20 Resonance Units(RU) 0 0 00.5 1 1.5 2 0 5 10 15 20 Cafeine concentration (mM) Theophylline concentration (mM) c d 40 ) 50 0 ) Notum + Cafeine 0 0 0 0 1 0 Notum + Theophylline 1 0 2 X 1 Notum + Theobromine 4 40 ( 30 X 8 ( Notum + Paraxanthine s t 16 Cafeine (µM ) i s 31 t Notum only n i 62.5 30 U n 125 U e 20 250 c e 500 n c 1000 20 e n c e s c e 10 s r e o r 10 u o l u F l F 0 0 40 50 60 70 80 90 40 50 60 70 80 90 Temperature (°C) Temperature (°C) Fig. 2 SPR and thermal shift assay analysis of caffeine and theophylline binding with Notum. Biotinylated Notum was immobilized on a streptavidin chip. a Caffeine and b theophylline in 2-fold dilution series were used as analytes. c Thermal shift assay showing the melting curve of Notum with caffeine, theophylline and theobromine at concentrations of 500 µM. The experiment was performed in triplicates (n = 3). d Thermal shift assay showing the melting curve of Notum with caffeine in a 2-fold dilution series from 1–1000 µM. theophylline (Fig. 2b and Supplementary Fig. 2b), with a calcu- theophylline (Fig. 3b, c) bind in the Notum pocket and have well- lated Kd value of 7 mM. We did not observe significant responses defined electron density (Fig. 3d, e). for paraxanthine or theobromine (Supplementary Fig. 2c, d). The overall Notum structures in both caffeine- and To further confirm these interactions, we used a thermal shift theophylline-bound complexes are similar to each other with an assay to investigate caffeine and its metabolites binding to RMSD of 0.3 Å for 339 aligned Cα atoms.

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