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- Balian, Alien, 1988-
(author)
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Nuclease Activity as a Biomarker in Cancer Detection
- 2023
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Doctoral thesis (other academic/artistic)abstract
- Nucleases are a group of enzymes that cleave the phosphodiester bonds in nucleic acids. As such, nucleases act as biological scissors that exhibit a plethora of fundamental roles, in prokaryotes and eukaryotes, dependent or non-dependent on their catalytic capability. Thus, differential status of nucleases between healthy and disease conditions might not be surprising, and can be deployed in disease detection. Specifically, there is growing body of research demonstrating the potential of nucleases as diagnostic biomarkers in several types of cancer. Biomarkers for early diagnosis are an immense need in the diagnostic landscape of cancer. In this sense, nucleases are promising biomolecules, and they possess a unique feature of catalytic activity that could be deployed for diagnosis and future therapeutic strategies. In this thesis we aim to demonstrate the use of nucleases as biomarkers associated to cancer, and the capability of oligonucleotide substrates for targeting a specific nuclease. The thesis work begins with comprehensive review of nucleases as promising biomarkers in cancer diagnosis (paper I). Then, we provide a methodological study in paper II, in which we propose a flexible approach for detection of disease associated nuclease activity using oligonucleotides as substrates. The probes utilized here are flanked with fluorophore at the 5’-end and a quencher at the 3’-end. Upon cleavage by nucleases, the fluorescent signal is increased in a proportional fashion to nuclease activity. This platform is suitable to implement in detection of any disease in which nuclease activity is altered. We have applied this method in paper III, by using 75 probes as substrates to screen breast cancer cells, along with controls, for nuclease activity. We have identified a probe (DNA PolyAT) that discriminates between BT-474 breast cancer cells and healthy cells based on nuclease activity profile associated with cell membrane. Next, we screened tissue samples from breast tumors for nuclease activity, and we have identified a set of probes with the capability to discriminate breast tumor and healthy tissues in 89% of the cases (paper IV). To achieve a step forward towards non-invasive diagnosis, we have developed an activatable magnetic resonance imaging (MRI)-probe (paper V). The MRI-probe is oligonucleotide-based that works like a contrast agent, and it is activated only in presence of a specific nuclease. MRI-probes provide advantages over fluorescent probes, such as high spatial resolution and unlimited tissue penetration. In conclusion, our findings suggest the utility of nuclease activity as a biomarker in cancer detection. Moreover, we demonstrate the applicability of nuclease activity-based approaches in imaging modalities, such as MRI. Our future aim is to translate our findings into non-invasive detection of breast cancer by utilizing breast cancer activatable MRI-probes.
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| 2. |
- Borsa, Baris Ata, First Research Engineer, et al.
(author)
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Therapeutic-oligonucleotides activated by nucleases (TOUCAN) : A nanocarrier system for the specific delivery of clinical nucleoside analogues.
- 2023
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In: Journal of Controlled Release. - : ELSEVIER. - 0168-3659 .- 1873-4995. ; 361, s. 260-269
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Journal article (peer-reviewed)abstract
- Nucleoside analogues have been in clinical use since 1960s and they are still used as the first therapeutic option for several cancers and viral infections, due to their high therapeutic efficacy. However, their wide clinical acceptance has been limited due to their high toxicity and severe side effects to patients. Herein, we report on a nanocarrier system that delivers nucleosides analogues in a target-specific manner, making nucleoside-based therapeutics safer and with the possibility to be used in other human conditions. This system, named, Therapeutic OligonUCleotides Activated by Nucleases" (TOUCAN) combines: i) the recognition power of oligonucleotides as substrates, ii) the use of nucleases as enzymatic biomarkers and iii) the clinical efficacy of nucleoside analogues, in a single approach. As a proof-of-concept, we report on a TOUCAN that is activated by a specific nuclease produced by bacteria and releases a therapeutic nucleoside, floxuridine. We demonstrate, for the first time, that, by incorporating a therapeutic nucleoside analogue into oligonucleotide probes, we can specifically inhibit bacterial growth in cultures. In this study, Staphylococcus aureus was selected as the targeted bacteria and the TOUCAN strategy successfully inhibited its growth with minimal inhibitory concentration (MIC) values ranging from 0.62 to 40 mg/L across all tested strains. Moreover, our results indicate that the intravenous administration of TOUCANs at a dose of 20 mg/kg over a 24-h period is a highly effective method for treating bacterial infections in a mouse model of pyomyositis. Importantly, no signs of toxicity were observed in our in vitro and in vivo studies. This work can significantly impact the current management of bacterial infections, laying the grounds for the development of a different class of antibiotics. Furthermore, it can provide a safer delivery platform for clinical nucleoside therapeutics in any human conditions, such as cancer and viral infection, where specific nuclease activity has been reported.
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