Structurally distinct PARP7 inhibitors provide new insights into the function of PARP7 in regulating nucleic acid-sensing and IFN-β signaling

Daniel J. Sanderson; Kelsie M. Rodriguez; Daniel S. Bejan; Ninni E. Olafsen; Inga D. Bohn; Ana Kojic; Sunil Sundalam; Ivan R. Siordia; Anna K. Duell; Nancy Deng; Carsten Schultz; Denis M. Grant; Jason Matthews; Michael S. Cohen

doi:10.1016/j.chembiol.2022.11.012

Structurally distinct PARP7 inhibitors provide new insights into the function of PARP7 in regulating nucleic acid-sensing and IFN-β signaling

Daniel J. Sanderson, Kelsie M. Rodriguez, Daniel S. Bejan, Ninni E. Olafsen, Inga D. Bohn, Ana Kojic, Sunil Sundalam, Ivan R. Siordia, Anna K. Duell, Nancy Deng, Carsten Schultz, Denis M. Grant, Jason Matthews, Michael S. Cohen

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

9 Scopus citations

Abstract

The mono-ADP-ribosyltransferase PARP7 has emerged as a key negative regulator of cytosolic NA-sensors of the innate immune system. We apply a rational design strategy for converting a pan-PARP inhibitor into a potent selective PARP7 inhibitor (KMR-206). Consistent with studies using the structurally distinct PARP7 inhibitor RBN-2397, co-treatment of mouse embryonic fibroblasts with KMR-206 and NA-sensor ligands synergistically induced the expression of the type I interferon, IFN-β. In mouse colon carcinoma (CT-26) cells, KMR-206 alone induced IFN-β. Both KMR-206 and RBN-2397 increased PARP7 protein levels in CT-26 cells, demonstrating that PARP7’s catalytic activity regulates its own protein levels. Curiously, treatment with saturating doses of KMR-206 and RBN-2397 achieved different levels of PARP7 protein, which correlated with the magnitude of type I interferon gene expression. These latter results have important implications for the mechanism of action of PARP7 inhibitors and highlights the usefulness of having structurally distinct chemical probes for the same target.

Original language	English (US)
Pages (from-to)	43-54.e8
Journal	Cell Chemical Biology
Volume	30
Issue number	1
DOIs	https://doi.org/10.1016/j.chembiol.2022.11.012
State	Published - Jan 19 2023
Externally published	Yes

Keywords

3pRNA
IFN-β
KMR-206
MARylation
PARP7
PARPs
RBN-2397
RIG-I
STING
cGAMP
type I interferon (IFN-I)

ASJC Scopus subject areas

Biochemistry
Molecular Medicine
Molecular Biology
Pharmacology
Drug Discovery
Clinical Biochemistry

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10.1016/j.chembiol.2022.11.012

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Sanderson, D. J., Rodriguez, K. M., Bejan, D. S., Olafsen, N. E., Bohn, I. D., Kojic, A., Sundalam, S., Siordia, I. R., Duell, A. K., Deng, N., Schultz, C., Grant, D. M., Matthews, J., & Cohen, M. S. (2023). Structurally distinct PARP7 inhibitors provide new insights into the function of PARP7 in regulating nucleic acid-sensing and IFN-β signaling. Cell Chemical Biology, 30(1), 43-54.e8. https://doi.org/10.1016/j.chembiol.2022.11.012

Sanderson, DJ, Rodriguez, KM, Bejan, DS, Olafsen, NE, Bohn, ID, Kojic, A, Sundalam, S, Siordia, IR, Duell, AK, Deng, N, Schultz, C, Grant, DM, Matthews, J & Cohen, MS 2023, 'Structurally distinct PARP7 inhibitors provide new insights into the function of PARP7 in regulating nucleic acid-sensing and IFN-β signaling', Cell Chemical Biology, vol. 30, no. 1, pp. 43-54.e8. https://doi.org/10.1016/j.chembiol.2022.11.012

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abstract = "The mono-ADP-ribosyltransferase PARP7 has emerged as a key negative regulator of cytosolic NA-sensors of the innate immune system. We apply a rational design strategy for converting a pan-PARP inhibitor into a potent selective PARP7 inhibitor (KMR-206). Consistent with studies using the structurally distinct PARP7 inhibitor RBN-2397, co-treatment of mouse embryonic fibroblasts with KMR-206 and NA-sensor ligands synergistically induced the expression of the type I interferon, IFN-β. In mouse colon carcinoma (CT-26) cells, KMR-206 alone induced IFN-β. Both KMR-206 and RBN-2397 increased PARP7 protein levels in CT-26 cells, demonstrating that PARP7{\textquoteright}s catalytic activity regulates its own protein levels. Curiously, treatment with saturating doses of KMR-206 and RBN-2397 achieved different levels of PARP7 protein, which correlated with the magnitude of type I interferon gene expression. These latter results have important implications for the mechanism of action of PARP7 inhibitors and highlights the usefulness of having structurally distinct chemical probes for the same target.",

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AU - Sanderson, Daniel J.

AU - Rodriguez, Kelsie M.

AU - Bejan, Daniel S.

AU - Olafsen, Ninni E.

AU - Bohn, Inga D.

AU - Kojic, Ana

AU - Sundalam, Sunil

AU - Siordia, Ivan R.

AU - Duell, Anna K.

AU - Deng, Nancy

AU - Schultz, Carsten

AU - Grant, Denis M.

AU - Matthews, Jason

AU - Cohen, Michael S.

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AB - The mono-ADP-ribosyltransferase PARP7 has emerged as a key negative regulator of cytosolic NA-sensors of the innate immune system. We apply a rational design strategy for converting a pan-PARP inhibitor into a potent selective PARP7 inhibitor (KMR-206). Consistent with studies using the structurally distinct PARP7 inhibitor RBN-2397, co-treatment of mouse embryonic fibroblasts with KMR-206 and NA-sensor ligands synergistically induced the expression of the type I interferon, IFN-β. In mouse colon carcinoma (CT-26) cells, KMR-206 alone induced IFN-β. Both KMR-206 and RBN-2397 increased PARP7 protein levels in CT-26 cells, demonstrating that PARP7’s catalytic activity regulates its own protein levels. Curiously, treatment with saturating doses of KMR-206 and RBN-2397 achieved different levels of PARP7 protein, which correlated with the magnitude of type I interferon gene expression. These latter results have important implications for the mechanism of action of PARP7 inhibitors and highlights the usefulness of having structurally distinct chemical probes for the same target.

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KW - STING

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ER -

Structurally distinct PARP7 inhibitors provide new insights into the function of PARP7 in regulating nucleic acid-sensing and IFN-β signaling

Abstract

Keywords

ASJC Scopus subject areas

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