Design, synthesis and biological evaluation of Nucleosidic CD99 inhibitors that selectively reduce Ewing sarcoma viability

Design, synthesis and biological evaluation of Nucleosidic CD99 inhibitors that selectively reduce Ewing sarcoma viability

Ewing Sarcoma (ES) is a cancer of bone and soft tissues affecting mostly children and young adults. Aggressive progression and poor prognosis of this malignancy call for novel and targeted treatments. CD99 is a transmembrane protein that is abundantly expressed on ES cells and is a diagnostic marker...

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Veröffentlicht in:European journal of medicinal chemistry 2023-05, Vol.251, p.115244-115244, Article 115244
Hauptverfasser: Balaraman, Kaluvu, Deniz, Emre, Nelson, Eryn, Pilicer, Samantha L., Atasoy, Sezen, Molotkova, Anna, Sevim, Handan, Tiwari, Purushottam B., Üren, Aykut, Wolf, Christian
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12E7 Antigen
CD99 inhibitors
Cell Adhesion Molecules
Child
Cladribine
Clofarabine
Clofarabine - pharmacology
DNA
Ewing sarcoma
Humans
Nucleoside derivatization
Sarcoma, Ewing - diagnosis
Sarcoma, Ewing - drug therapy
Sarcoma, Ewing - genetics
Targeted therapy
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container_issue
container_start_page 115244
container_title European journal of medicinal chemistry
container_volume 251
creator Balaraman, Kaluvu
Deniz, Emre
Nelson, Eryn
Pilicer, Samantha L.
Atasoy, Sezen
Molotkova, Anna
Sevim, Handan
Tiwari, Purushottam B.
Üren, Aykut
Wolf, Christian
description Ewing Sarcoma (ES) is a cancer of bone and soft tissues affecting mostly children and young adults. Aggressive progression and poor prognosis of this malignancy call for novel and targeted treatments. CD99 is a transmembrane protein that is abundantly expressed on ES cells and is a diagnostic marker for the disease. ES cells are selectively sensitive to CD99 inhibition compared to most normal cells and other tumors. Therefore, CD99 is a good molecular target for ES treatment. Clofarabine and cladribine are two FDA approved drugs that are administered for their inhibitory acts on DNA synthesis to treat relapsed or refractory acute lymphoblastic and myeloid leukemia. They have also been shown to directly bind to CD99 and inhibit ES growth through a distinct mechanism. In the current study, we designed, synthesized and tested new ES specific derivatives of both drugs that would continue to target CD99 but with expected reduction in cellular membrane permeability and rendered unsuitable for inhibiting DNA synthesis. By using commercially available clofarabine and cladribine purine nucleoside analogs, we modified the primary alcohol moiety at the deoxyribose C-5’ terminal site to suppress phosphorylation and thus inhibition of subsequent DNA synthesis pathways. In addition, we incorporated a variety of polar groups in the ribose and purine rings to reduce membrane permeability and investigated the effects of configurational changes in the sugar moiety. Among 26 new derivatives, we identified two compounds, BK50164 and BK60106, that cause cell death specifically in ES primarily due to inhibition of CD99 but not via inhibition of DNA synthesis. These findings provide a road map for the future development selective CD99 inhibitors for targeted treatment of ES. [Display omitted] •BK50164 and BK60106 selectively kill 7 Ewing sarcoma cells compared to 13 other cell lines.•BK50164 and BK60106 directly bind to the extracellular domain of CD99.•BK50164 and BK60106 function through an alternative mechanism compared to clofarabine.
doi_str_mv 10.1016/j.ejmech.2023.115244
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By using commercially available clofarabine and cladribine purine nucleoside analogs, we modified the primary alcohol moiety at the deoxyribose C-5’ terminal site to suppress phosphorylation and thus inhibition of subsequent DNA synthesis pathways. In addition, we incorporated a variety of polar groups in the ribose and purine rings to reduce membrane permeability and investigated the effects of configurational changes in the sugar moiety. Among 26 new derivatives, we identified two compounds, BK50164 and BK60106, that cause cell death specifically in ES primarily due to inhibition of CD99 but not via inhibition of DNA synthesis. These findings provide a road map for the future development selective CD99 inhibitors for targeted treatment of ES. 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Aggressive progression and poor prognosis of this malignancy call for novel and targeted treatments. CD99 is a transmembrane protein that is abundantly expressed on ES cells and is a diagnostic marker for the disease. ES cells are selectively sensitive to CD99 inhibition compared to most normal cells and other tumors. Therefore, CD99 is a good molecular target for ES treatment. Clofarabine and cladribine are two FDA approved drugs that are administered for their inhibitory acts on DNA synthesis to treat relapsed or refractory acute lymphoblastic and myeloid leukemia. They have also been shown to directly bind to CD99 and inhibit ES growth through a distinct mechanism. In the current study, we designed, synthesized and tested new ES specific derivatives of both drugs that would continue to target CD99 but with expected reduction in cellular membrane permeability and rendered unsuitable for inhibiting DNA synthesis. By using commercially available clofarabine and cladribine purine nucleoside analogs, we modified the primary alcohol moiety at the deoxyribose C-5’ terminal site to suppress phosphorylation and thus inhibition of subsequent DNA synthesis pathways. In addition, we incorporated a variety of polar groups in the ribose and purine rings to reduce membrane permeability and investigated the effects of configurational changes in the sugar moiety. Among 26 new derivatives, we identified two compounds, BK50164 and BK60106, that cause cell death specifically in ES primarily due to inhibition of CD99 but not via inhibition of DNA synthesis. These findings provide a road map for the future development selective CD99 inhibitors for targeted treatment of ES. [Display omitted] •BK50164 and BK60106 selectively kill 7 Ewing sarcoma cells compared to 13 other cell lines.•BK50164 and BK60106 directly bind to the extracellular domain of CD99.•BK50164 and BK60106 function through an alternative mechanism compared to clofarabine.</abstract><cop>France</cop><pub>Elsevier Masson SAS</pub><pmid>36917882</pmid><doi>10.1016/j.ejmech.2023.115244</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0002-4447-3753</orcidid><oa>free_for_read</oa></addata></record>
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subjects 12E7 Antigen
CD99 inhibitors
Cell Adhesion Molecules
Child
Cladribine
Clofarabine
Clofarabine - pharmacology
DNA
Ewing sarcoma
Humans
Nucleoside derivatization
Sarcoma, Ewing - diagnosis
Sarcoma, Ewing - drug therapy
Sarcoma, Ewing - genetics
Targeted therapy
title Design, synthesis and biological evaluation of Nucleosidic CD99 inhibitors that selectively reduce Ewing sarcoma viability
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