Scholarship 22/09966-4 - Produção de substâncias, produtos e materiais, Proteínas recombinantes - BV FAPESP
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Production of coatings based on recombinant proteins for the selective capture of circulating tumor cells aiming diagnostic purposes

Grant number: 22/09966-4
Support Opportunities:Scholarships in Brazil - Doctorate (Direct)
Start date until: September 01, 2022
End date until: August 31, 2026
Field of knowledge:Engineering - Chemical Engineering - Chemical Technology
Principal Investigator:Marisa Masumi Beppu
Grantee:Eduarda Baggio Paglia
Host Institution: Faculdade de Engenharia Química (FEQ). Universidade Estadual de Campinas (UNICAMP). Campinas , SP, Brazil
Associated research grant:20/12980-3 - Functionalization of microfabricated devices aiming at the selective capture of circulating tumor cells for diagnostic purposes, AP.TEM
Associated scholarship(s):24/08699-8 - Enhancing cancer detection: Developing a DNA Probe for electrode coating using Layer-by-Layer technique, BE.EP.DD

Abstract

Cancer is the second leading cause of death worldwide, with early detection and appropriate therapy being the best alternatives to reduce the risk of mortality. Despite the recent advances in investigating biomarkers for early Cancer detection, diagnosis strategies still lack improvements inthe selectivity for the capture of Circulating Tumor Cells (CTCs) and the detection method'ssensitivity. This proposal aims to establish a synergistic collaboration among three universities of the state of São Paulo (UNICAMP, USP, and UNIFESP), the Renato Archer Information Technology Center, and two international universities (University of Laval and MIT) to develop a platform for the diagnosis of different types of Cancer diseases based on CTCs detection. There search team will explore microfabrication methods, recombinant protein biosynthesis, and surface functionalization via Layer-by-Layer to create tridimensional electrodes for detecting prostate, breast, and thyroid Cancer cell lineages. These techniques will enable the production of functionalized, patterned surfaces bearing peptide sequences that interact with tumor cell integrins, enhancing the selective capture of CTCs from biological assays on impedance electrodes. Understanding the design rules for biological recognition of different CTCs lineages will demandan in-depth investigation of the factors affecting the cell adhesion process, such as the patterned surface geometry, the film deposition parameters, and the affinity between the surfasse macromolecules and the cell surface. Overall, this proposal envisions establishing a proof-ofconceptplatform for CTCs detection, streamlining the clinical diagnose of tumoral diseases. (AU)

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