BMPQ-1 binds selectively to (3+1) hybrid topologies in human telomeric G-quadruplex multimers
Nucleic Acids Research • 2020
معلومات البحث
المؤلفون
Chao Gao, Zhu Liu, Haitao Hou, Jieqin Ding, Xin Chen, Congbao Xie, Zibing Song, Zhe Hu, Mingqian Feng, Hany I. Mohamed, Shengzhen Xu, Gary N. Parkinson, Shozeb Haider and Dengguo Wei
الكلمات المفتاحية
Not Available
المجلة العلمية
Nucleic Acids Research
الناشر
Oxford University Press
المجلد
48
العدد
20
الصفحات
11259–11269
publication.type
International
رابط البحث
Not Available
المواد المرفقة
Hany Ibrahim Mohamed Ibrahim_NAR2020supplemental_file.pdf
الملخص
single G-quadruplex forming sequence from the
human telomere can adopt six distinct topologies
that are inter-convertible under physiological conditions.
This presents challenges to design ligands
that show selectivity and specificity towards a particular
conformation. Additional complexity is introduced
in differentiating multimeric G-quadruplexes
over monomeric species, which would be able to
form in the single-stranded 3 ends of telomeres.
A few ligands have been reported that bind to
dimeric quadruplexes, but their preclinical pharmacological
evaluation is limited. Using multidisciplinary
approaches, we identified a novel quinoline
core ligand, BMPQ-1, which bound to human
telomeric G-quadruplex multimers over monomeric
G-quadruplexes with high selectivity, and induced
the formation of G-quadruplex DNA along with the related
DNA damage response at the telomere. BMPQ-
1 reduced tumor cell proliferation with an IC50 of
∼1.0 M and decreased tumor growth rate in mouse
by half. Biophysical analysis using smFRET identified
a mixture of multiple conformations coexisting
for dimeric G-quadruplexes in solution. Here, we
showed that the titration of BMPQ-1 shifted the conformational
ensemble of multimeric G-quadruplexes towards (3+1) hybrid-2 topology, which became more
pronounced as furtherG-quadruplex units are added.
human telomere can adopt six distinct topologies
that are inter-convertible under physiological conditions.
This presents challenges to design ligands
that show selectivity and specificity towards a particular
conformation. Additional complexity is introduced
in differentiating multimeric G-quadruplexes
over monomeric species, which would be able to
form in the single-stranded 3 ends of telomeres.
A few ligands have been reported that bind to
dimeric quadruplexes, but their preclinical pharmacological
evaluation is limited. Using multidisciplinary
approaches, we identified a novel quinoline
core ligand, BMPQ-1, which bound to human
telomeric G-quadruplex multimers over monomeric
G-quadruplexes with high selectivity, and induced
the formation of G-quadruplex DNA along with the related
DNA damage response at the telomere. BMPQ-
1 reduced tumor cell proliferation with an IC50 of
∼1.0 M and decreased tumor growth rate in mouse
by half. Biophysical analysis using smFRET identified
a mixture of multiple conformations coexisting
for dimeric G-quadruplexes in solution. Here, we
showed that the titration of BMPQ-1 shifted the conformational
ensemble of multimeric G-quadruplexes towards (3+1) hybrid-2 topology, which became more
pronounced as furtherG-quadruplex units are added.
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