Targeting the pregnane X receptor using microbial metabolite mimicry

Zdeněk Dvořák; Felix Kopp; Cait M. Costello; Jazmin S. Kemp; Hao Li; Aneta Vrzalová; Martina Štěpánková; Iveta Bartoňková; Eva Jiskrová; Karolína Poulíková; Barbora Vyhlídalová; Lars U. Nordstroem; Chamini V. Karunaratne; Harmit S. Ranhotra; Kyu Shik Mun; Anjaparavanda P. Naren; Iain A. Murray; Gary H. Perdew; Julius Brtko; Lucia Toporova; Arne Schön; William G. Wallace; William G. Walton; Matthew R. Redinbo; Katherine Sun; Amanda Beck; Sandhya Kortagere; Michelle C. Neary; Aneesh Chandran; Saraswathi Vishveshwara; Maria M. Cavalluzzi; Giovanni Lentini; Julia Yue Cui; Haiwei Gu; John C. March; Shirshendu Chatterjee; Adam Matson; Dennis Wright; Kyle L. Flannigan; Simon A. Hirota; Ryan Balfour Sartor; Sridhar Mani

doi:10.15252/emmm.201911621

Targeting the pregnane X receptor using microbial metabolite mimicry

Zdeněk Dvořák, Felix Kopp, Cait M. Costello, Jazmin S. Kemp, Hao Li, Aneta Vrzalová, Martina Štěpánková, Iveta Bartoňková, Eva Jiskrová, Karolína Poulíková, Barbora Vyhlídalová, Lars U. Nordstroem, Chamini V. Karunaratne, Harmit S. Ranhotra, Kyu Shik Mun, Anjaparavanda P. Naren, Iain A. Murray, Gary H. Perdew, Julius Brtko, Lucia ToporovaArne Schön, William G. Wallace, William G. Walton, Matthew R. Redinbo, Katherine Sun, Amanda Beck, Sandhya Kortagere, Michelle C. Neary, Aneesh Chandran, Saraswathi Vishveshwara, Maria M. Cavalluzzi, Giovanni Lentini, Julia Yue Cui, Haiwei Gu, John C. March, Shirshendu Chatterjee, Adam Matson, Dennis Wright, Kyle L. Flannigan, Simon A. Hirota, Ryan Balfour Sartor, Sridhar Mani

Research output: Contribution to journal › Article › peer-review

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Abstract

The human PXR (pregnane X receptor), a master regulator of drug metabolism, has essential roles in intestinal homeostasis and abrogating inflammation. Existing PXR ligands have substantial off-target toxicity. Based on prior work that established microbial (indole) metabolites as PXR ligands, we proposed microbial metabolite mimicry as a novel strategy for drug discovery that allows exploiting previously unexplored parts of chemical space. Here, we report functionalized indole derivatives as first-in-class non-cytotoxic PXR agonists as a proof of concept for microbial metabolite mimicry. The lead compound, FKK6 (Felix Kopp Kortagere 6), binds directly to PXR protein in solution, induces PXR-specific target gene expression in cells, human organoids, and mice. FKK6 significantly represses pro-inflammatory cytokine production cells and abrogates inflammation in mice expressing the human PXR gene. The development of FKK6 demonstrates for the first time that microbial metabolite mimicry is a viable strategy for drug discovery and opens the door to underexploited regions of chemical space.

Original language	English (US)
Article number	e11621
Journal	EMBO Molecular Medicine
Volume	12
Issue number	4
DOIs	https://doi.org/10.15252/emmm.201911621
State	Published - Apr 7 2020

Keywords

drugs
microbial metabolite
mimics
pregnane X receptor
therapy

ASJC Scopus subject areas

Molecular Medicine

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10.15252/emmm.201911621

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Dvořák, Z., Kopp, F., Costello, C. M., Kemp, J. S., Li, H., Vrzalová, A., Štěpánková, M., Bartoňková, I., Jiskrová, E., Poulíková, K., Vyhlídalová, B., Nordstroem, L. U., Karunaratne, C. V., Ranhotra, H. S., Mun, K. S., Naren, A. P., Murray, I. A., Perdew, G. H., Brtko, J., ... Mani, S. (2020). Targeting the pregnane X receptor using microbial metabolite mimicry. EMBO Molecular Medicine, 12(4), Article e11621. https://doi.org/10.15252/emmm.201911621

Dvořák, Z, Kopp, F, Costello, CM, Kemp, JS, Li, H, Vrzalová, A, Štěpánková, M, Bartoňková, I, Jiskrová, E, Poulíková, K, Vyhlídalová, B, Nordstroem, LU, Karunaratne, CV, Ranhotra, HS, Mun, KS, Naren, AP, Murray, IA, Perdew, GH, Brtko, J, Toporova, L, Schön, A, Wallace, WG, Walton, WG, Redinbo, MR, Sun, K, Beck, A, Kortagere, S, Neary, MC, Chandran, A, Vishveshwara, S, Cavalluzzi, MM, Lentini, G, Cui, JY, Gu, H, March, JC, Chatterjee, S, Matson, A, Wright, D, Flannigan, KL, Hirota, SA, Sartor, RB & Mani, S 2020, 'Targeting the pregnane X receptor using microbial metabolite mimicry', EMBO Molecular Medicine, vol. 12, no. 4, e11621. https://doi.org/10.15252/emmm.201911621

@article{e1c9e182259e4da082844f5bda60514b,

title = "Targeting the pregnane X receptor using microbial metabolite mimicry",

abstract = "The human PXR (pregnane X receptor), a master regulator of drug metabolism, has essential roles in intestinal homeostasis and abrogating inflammation. Existing PXR ligands have substantial off-target toxicity. Based on prior work that established microbial (indole) metabolites as PXR ligands, we proposed microbial metabolite mimicry as a novel strategy for drug discovery that allows exploiting previously unexplored parts of chemical space. Here, we report functionalized indole derivatives as first-in-class non-cytotoxic PXR agonists as a proof of concept for microbial metabolite mimicry. The lead compound, FKK6 (Felix Kopp Kortagere 6), binds directly to PXR protein in solution, induces PXR-specific target gene expression in cells, human organoids, and mice. FKK6 significantly represses pro-inflammatory cytokine production cells and abrogates inflammation in mice expressing the human PXR gene. The development of FKK6 demonstrates for the first time that microbial metabolite mimicry is a viable strategy for drug discovery and opens the door to underexploited regions of chemical space.",

keywords = "drugs, microbial metabolite, mimics, pregnane X receptor, therapy",

author = "Zden{\v e}k Dvo{\v r}{\'a}k and Felix Kopp and Costello, {Cait M.} and Kemp, {Jazmin S.} and Hao Li and Aneta Vrzalov{\'a} and Martina {\v S}t{\v e}p{\'a}nkov{\'a} and Iveta Barto{\v n}kov{\'a} and Eva Jiskrov{\'a} and Karol{\'i}na Poul{\'i}kov{\'a} and Barbora Vyhl{\'i}dalov{\'a} and Nordstroem, {Lars U.} and Karunaratne, {Chamini V.} and Ranhotra, {Harmit S.} and Mun, {Kyu Shik} and Naren, {Anjaparavanda P.} and Murray, {Iain A.} and Perdew, {Gary H.} and Julius Brtko and Lucia Toporova and Arne Sch{\"o}n and Wallace, {William G.} and Walton, {William G.} and Redinbo, {Matthew R.} and Katherine Sun and Amanda Beck and Sandhya Kortagere and Neary, {Michelle C.} and Aneesh Chandran and Saraswathi Vishveshwara and Cavalluzzi, {Maria M.} and Giovanni Lentini and Cui, {Julia Yue} and Haiwei Gu and March, {John C.} and Shirshendu Chatterjee and Adam Matson and Dennis Wright and Flannigan, {Kyle L.} and Hirota, {Simon A.} and Sartor, {Ryan Balfour} and Sridhar Mani",

note = "Funding Information: The studies presented here were funded in part by the ICTR Pilot Award (AECOM to S.M & F.K); Grant# 362520 Broad Medical Research Program (BMRP, not Litwin) at CCFA (Crohn's & Colitis Foundation of America) (to S.M); NIH grants R35 ES028244 (to G.H.P); CA127231, CA 161879, and Department of Defense Partnering PI (W81XWH-17-1-0479; PR160167) (to S.M.); ES030197 (to S.M., J.C., H.G), as well as R43DK105694 (PI: Jay Wrobel) and P30DK041296 (PI: Alan Wolkoff) (Pilot Awards, S.M); Diabetes Research Center Grant (P30 DK020541); Cancer Center Grant (P30CA013330 PI: David Goldman); 1S10OD019961-01 NIH Instrument Award (PI: John Condeelis); LTQ Orbitrap Velos Mass Spectrometer System (1S10RR029398); and NIH CTSA (1 UL1 TR001073). Additional invaluable assistance was obtained from Vera DesMarais PhD (Light Microscopy and Image Analysis Analytical Imaging Facility (AIF), Albert Einstein College of Medicine, Bronx, NY), Amanda Beck DVM (Histology and Comparative Pathology Core, Albert Einstein College of Medicine, Bronx, NY), Lars Nordstroem PhD and Chamini Karunaratne PhD (Chemical Synthesis and Biology Core, Albert Einstein College of Medicine, Bronx, NY), Yungping Qiu PhD (Stable Isotopes and Metabolomics Core Facility, Albert Einstein College of Medicine, Bronx, NY, and the Proteomics Core Facility, Albert Einstein College of Medicine, Bronx, NY), NIH R01 CA207416 (to M.R.R.) and the Czech Science Foundation [19-00236S] and the Operational Programme Research, Development and Education—European Regional Development Fund, the Ministry of Education, Youth and Sports of the Czech Republic [CZ.02.1.01/0.0/0.0/16_019/0000754] (Z.D.), and Christian Jobin (E. coli NC101 strains, University of Florida, Gainesville, FL). Arpan De performed the biofilm assays. MMC and GL are indebted to professor Cele Abad-Zapatero who invented AtlasCBS and disclosed its potential as a tool to facilitate drug design and development endeavors. SV and AC are supported by the National Academy of Sciences, India. The authors thank Ms. Gurmeet Bindra in the inflammatory intestinal tissue bank (IITB) and the staff at the University of Calgary endoscopy unit for assistance with research sample collection and Dr. Marilyn Gordon of the Human Tissue Research Lab at the University of Calgary for sample preparation and human intestinal organoid protocol optimization. SAH's salary is supported by the CIHR's Canada Research Chair program (Tier II CRC in Host-Microbe Interactions and Chronic Disease); SAH's lab is supported operating funds from Crohn's & Colitis Canada; the Dr. Lloyd Sutherland Investigatorship in IBD/GI Research; Natural Sciences and Engineering Research Council (NSERC) Discovery Grant (RGPIN-2016-03842). Weijie Chen developed the final corrected figures. Arne Sch{\"o}n was supported by NIH funded contract (HHSN261200800001E). Publisher Copyright: {\textcopyright} 2020 The Authors. Published under the terms of the CC BY 4.0 license",

year = "2020",

month = apr,

day = "7",

doi = "10.15252/emmm.201911621",

language = "English (US)",

volume = "12",

journal = "EMBO Molecular Medicine",

issn = "1757-4676",

publisher = "Wiley-Blackwell",

number = "4",

}

TY - JOUR

T1 - Targeting the pregnane X receptor using microbial metabolite mimicry

AU - Dvořák, Zdeněk

AU - Kopp, Felix

AU - Costello, Cait M.

AU - Kemp, Jazmin S.

AU - Li, Hao

AU - Vrzalová, Aneta

AU - Štěpánková, Martina

AU - Bartoňková, Iveta

AU - Jiskrová, Eva

AU - Poulíková, Karolína

AU - Vyhlídalová, Barbora

AU - Nordstroem, Lars U.

AU - Karunaratne, Chamini V.

AU - Ranhotra, Harmit S.

AU - Mun, Kyu Shik

AU - Naren, Anjaparavanda P.

AU - Murray, Iain A.

AU - Perdew, Gary H.

AU - Brtko, Julius

AU - Toporova, Lucia

AU - Schön, Arne

AU - Wallace, William G.

AU - Walton, William G.

AU - Redinbo, Matthew R.

AU - Sun, Katherine

AU - Beck, Amanda

AU - Kortagere, Sandhya

AU - Neary, Michelle C.

AU - Chandran, Aneesh

AU - Vishveshwara, Saraswathi

AU - Cavalluzzi, Maria M.

AU - Lentini, Giovanni

AU - Cui, Julia Yue

AU - Gu, Haiwei

AU - March, John C.

AU - Chatterjee, Shirshendu

AU - Matson, Adam

AU - Wright, Dennis

AU - Flannigan, Kyle L.

AU - Hirota, Simon A.

AU - Sartor, Ryan Balfour

AU - Mani, Sridhar

N1 - Funding Information: The studies presented here were funded in part by the ICTR Pilot Award (AECOM to S.M & F.K); Grant# 362520 Broad Medical Research Program (BMRP, not Litwin) at CCFA (Crohn's & Colitis Foundation of America) (to S.M); NIH grants R35 ES028244 (to G.H.P); CA127231, CA 161879, and Department of Defense Partnering PI (W81XWH-17-1-0479; PR160167) (to S.M.); ES030197 (to S.M., J.C., H.G), as well as R43DK105694 (PI: Jay Wrobel) and P30DK041296 (PI: Alan Wolkoff) (Pilot Awards, S.M); Diabetes Research Center Grant (P30 DK020541); Cancer Center Grant (P30CA013330 PI: David Goldman); 1S10OD019961-01 NIH Instrument Award (PI: John Condeelis); LTQ Orbitrap Velos Mass Spectrometer System (1S10RR029398); and NIH CTSA (1 UL1 TR001073). Additional invaluable assistance was obtained from Vera DesMarais PhD (Light Microscopy and Image Analysis Analytical Imaging Facility (AIF), Albert Einstein College of Medicine, Bronx, NY), Amanda Beck DVM (Histology and Comparative Pathology Core, Albert Einstein College of Medicine, Bronx, NY), Lars Nordstroem PhD and Chamini Karunaratne PhD (Chemical Synthesis and Biology Core, Albert Einstein College of Medicine, Bronx, NY), Yungping Qiu PhD (Stable Isotopes and Metabolomics Core Facility, Albert Einstein College of Medicine, Bronx, NY, and the Proteomics Core Facility, Albert Einstein College of Medicine, Bronx, NY), NIH R01 CA207416 (to M.R.R.) and the Czech Science Foundation [19-00236S] and the Operational Programme Research, Development and Education—European Regional Development Fund, the Ministry of Education, Youth and Sports of the Czech Republic [CZ.02.1.01/0.0/0.0/16_019/0000754] (Z.D.), and Christian Jobin (E. coli NC101 strains, University of Florida, Gainesville, FL). Arpan De performed the biofilm assays. MMC and GL are indebted to professor Cele Abad-Zapatero who invented AtlasCBS and disclosed its potential as a tool to facilitate drug design and development endeavors. SV and AC are supported by the National Academy of Sciences, India. The authors thank Ms. Gurmeet Bindra in the inflammatory intestinal tissue bank (IITB) and the staff at the University of Calgary endoscopy unit for assistance with research sample collection and Dr. Marilyn Gordon of the Human Tissue Research Lab at the University of Calgary for sample preparation and human intestinal organoid protocol optimization. SAH's salary is supported by the CIHR's Canada Research Chair program (Tier II CRC in Host-Microbe Interactions and Chronic Disease); SAH's lab is supported operating funds from Crohn's & Colitis Canada; the Dr. Lloyd Sutherland Investigatorship in IBD/GI Research; Natural Sciences and Engineering Research Council (NSERC) Discovery Grant (RGPIN-2016-03842). Weijie Chen developed the final corrected figures. Arne Schön was supported by NIH funded contract (HHSN261200800001E). Publisher Copyright: © 2020 The Authors. Published under the terms of the CC BY 4.0 license

PY - 2020/4/7

Y1 - 2020/4/7

N2 - The human PXR (pregnane X receptor), a master regulator of drug metabolism, has essential roles in intestinal homeostasis and abrogating inflammation. Existing PXR ligands have substantial off-target toxicity. Based on prior work that established microbial (indole) metabolites as PXR ligands, we proposed microbial metabolite mimicry as a novel strategy for drug discovery that allows exploiting previously unexplored parts of chemical space. Here, we report functionalized indole derivatives as first-in-class non-cytotoxic PXR agonists as a proof of concept for microbial metabolite mimicry. The lead compound, FKK6 (Felix Kopp Kortagere 6), binds directly to PXR protein in solution, induces PXR-specific target gene expression in cells, human organoids, and mice. FKK6 significantly represses pro-inflammatory cytokine production cells and abrogates inflammation in mice expressing the human PXR gene. The development of FKK6 demonstrates for the first time that microbial metabolite mimicry is a viable strategy for drug discovery and opens the door to underexploited regions of chemical space.

AB - The human PXR (pregnane X receptor), a master regulator of drug metabolism, has essential roles in intestinal homeostasis and abrogating inflammation. Existing PXR ligands have substantial off-target toxicity. Based on prior work that established microbial (indole) metabolites as PXR ligands, we proposed microbial metabolite mimicry as a novel strategy for drug discovery that allows exploiting previously unexplored parts of chemical space. Here, we report functionalized indole derivatives as first-in-class non-cytotoxic PXR agonists as a proof of concept for microbial metabolite mimicry. The lead compound, FKK6 (Felix Kopp Kortagere 6), binds directly to PXR protein in solution, induces PXR-specific target gene expression in cells, human organoids, and mice. FKK6 significantly represses pro-inflammatory cytokine production cells and abrogates inflammation in mice expressing the human PXR gene. The development of FKK6 demonstrates for the first time that microbial metabolite mimicry is a viable strategy for drug discovery and opens the door to underexploited regions of chemical space.

KW - drugs

KW - microbial metabolite

KW - mimics

KW - pregnane X receptor

KW - therapy

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U2 - 10.15252/emmm.201911621

DO - 10.15252/emmm.201911621

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AN - SCOPUS:85081220801

SN - 1757-4676

VL - 12

JO - EMBO Molecular Medicine

JF - EMBO Molecular Medicine

IS - 4

M1 - e11621

ER -

Targeting the pregnane X receptor using microbial metabolite mimicry

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