Discovery of Novel SIRT3 Inhibitors for the Cancer Differentiation Therapy by Structural Modification

ABSTRACT Inhibition of SIRT3 triggered differentiation of multiple myeloma (MM) cells. In discovery of potent SIRT3 inhibitors for cancer differentiation therapy, structural modification was performed on the previously developed lead compound S27. A total of 49 compounds divided into two series were...

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Published in:	Drug development research Vol. 85; no. 7; pp. e70016 - n/a
Main Authors:	Li, Honggang, Du, Yanmei, Zhang, Lihui, Xu, Guangzhao, Li, Fahui, Zhang, Daopeng, Zhang, Lei
Format:	Journal Article
Language:	English
Published:	Hoboken Wiley Subscription Services, Inc 01-11-2024
Subjects:	Apoptosis Cancer Cancer therapies Cell differentiation Cell proliferation Chemical synthesis differentiation Differentiation (biology) Growth factors Inhibitors Lead compounds Multiple myeloma Phenotypes selective inhibitor SIRT3 structural modification Therapy
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Abstract	ABSTRACT Inhibition of SIRT3 triggered differentiation of multiple myeloma (MM) cells. In discovery of potent SIRT3 inhibitors for cancer differentiation therapy, structural modification was performed on the previously developed lead compound S27. A total of 49 compounds divided into two series were designed and synthesized. In the enzyme inhibitory assay, several molecules (A7, A13, B15, and B26) exhibited potent SIRT3 inhibitory activity and selectivity. Significantly, representative compounds, especially A7, promoted differentiation of MM cells from cancer phenotype to normal cells, accompanied by increased expression of antigen CD49e, human immunoglobulin light chain λ‐IgLG and κ‐IgLG. Additionally, molecule A7 reversed growth factor IL‐6 induced MM cell proliferation, improved the antiproliferative activity of Ixazomib and increased the apoptotic rate of MM cells treated with Ixazomib. Collectively, potent SIRT3 inhibitors with MM cell differentiation potency were developed for the cancer therapy used alone or in combination.
AbstractList	Inhibition of SIRT3 triggered differentiation of multiple myeloma (MM) cells. In discovery of potent SIRT3 inhibitors for cancer differentiation therapy, structural modification was performed on the previously developed lead compound S27. A total of 49 compounds divided into two series were designed and synthesized. In the enzyme inhibitory assay, several molecules (A7, A13, B15, and B26) exhibited potent SIRT3 inhibitory activity and selectivity. Significantly, representative compounds, especially A7, promoted differentiation of MM cells from cancer phenotype to normal cells, accompanied by increased expression of antigen CD49e, human immunoglobulin light chain λ‐IgLG and κ‐IgLG. Additionally, molecule A7 reversed growth factor IL‐6 induced MM cell proliferation, improved the antiproliferative activity of Ixazomib and increased the apoptotic rate of MM cells treated with Ixazomib. Collectively, potent SIRT3 inhibitors with MM cell differentiation potency were developed for the cancer therapy used alone or in combination. ABSTRACT Inhibition of SIRT3 triggered differentiation of multiple myeloma (MM) cells. In discovery of potent SIRT3 inhibitors for cancer differentiation therapy, structural modification was performed on the previously developed lead compound S27. A total of 49 compounds divided into two series were designed and synthesized. In the enzyme inhibitory assay, several molecules (A7, A13, B15, and B26) exhibited potent SIRT3 inhibitory activity and selectivity. Significantly, representative compounds, especially A7, promoted differentiation of MM cells from cancer phenotype to normal cells, accompanied by increased expression of antigen CD49e, human immunoglobulin light chain λ‐IgLG and κ‐IgLG. Additionally, molecule A7 reversed growth factor IL‐6 induced MM cell proliferation, improved the antiproliferative activity of Ixazomib and increased the apoptotic rate of MM cells treated with Ixazomib. Collectively, potent SIRT3 inhibitors with MM cell differentiation potency were developed for the cancer therapy used alone or in combination. Inhibition of SIRT3 triggered differentiation of multiple myeloma (MM) cells. In discovery of potent SIRT3 inhibitors for cancer differentiation therapy, structural modification was performed on the previously developed lead compound S27. A total of 49 compounds divided into two series were designed and synthesized. In the enzyme inhibitory assay, several molecules (A7, A13, B15, and B26) exhibited potent SIRT3 inhibitory activity and selectivity. Significantly, representative compounds, especially A7, promoted differentiation of MM cells from cancer phenotype to normal cells, accompanied by increased expression of antigen CD49e, human immunoglobulin light chain λ-IgLG and κ-IgLG. Additionally, molecule A7 reversed growth factor IL-6 induced MM cell proliferation, improved the antiproliferative activity of Ixazomib and increased the apoptotic rate of MM cells treated with Ixazomib. Collectively, potent SIRT3 inhibitors with MM cell differentiation potency were developed for the cancer therapy used alone or in combination.Inhibition of SIRT3 triggered differentiation of multiple myeloma (MM) cells. In discovery of potent SIRT3 inhibitors for cancer differentiation therapy, structural modification was performed on the previously developed lead compound S27. A total of 49 compounds divided into two series were designed and synthesized. In the enzyme inhibitory assay, several molecules (A7, A13, B15, and B26) exhibited potent SIRT3 inhibitory activity and selectivity. Significantly, representative compounds, especially A7, promoted differentiation of MM cells from cancer phenotype to normal cells, accompanied by increased expression of antigen CD49e, human immunoglobulin light chain λ-IgLG and κ-IgLG. Additionally, molecule A7 reversed growth factor IL-6 induced MM cell proliferation, improved the antiproliferative activity of Ixazomib and increased the apoptotic rate of MM cells treated with Ixazomib. Collectively, potent SIRT3 inhibitors with MM cell differentiation potency were developed for the cancer therapy used alone or in combination.
Author	Zhang, Lihui Li, Fahui Li, Honggang Xu, Guangzhao Zhang, Daopeng Du, Yanmei Zhang, Lei
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Snippet	ABSTRACT Inhibition of SIRT3 triggered differentiation of multiple myeloma (MM) cells. In discovery of potent SIRT3 inhibitors for cancer differentiation... Inhibition of SIRT3 triggered differentiation of multiple myeloma (MM) cells. In discovery of potent SIRT3 inhibitors for cancer differentiation therapy,...
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SubjectTerms	Apoptosis Cancer Cancer therapies Cell differentiation Cell proliferation Chemical synthesis differentiation Differentiation (biology) Growth factors Inhibitors Lead compounds Multiple myeloma Phenotypes selective inhibitor SIRT3 structural modification Therapy
Title	Discovery of Novel SIRT3 Inhibitors for the Cancer Differentiation Therapy by Structural Modification
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