DNAsensPROT | Ultrasensitive Quantification of Proteins based on Amplification of DNA Displaced from DNA Aptamer Duplex using Semiconductor Technology

Summary
The life expectancy in both EU and US fell in 2015. A third of premature deaths could be preventable and large part is due to obesity – a major risk factor for many chronic diseases including diabetes. Worldwide about 40% of adults are overweight and 13% obese. Regulation of food metabolism is becoming one of the main issues relevant to human health today. Obesity is preventable, however there are no currently available non-invasive and cost-effective obesity treatments, pointing to the need of novel diagnostic and prognostic tests. Leptin, a gut-hormone protein, has been shown to be crucial in regulating appetite and weight. Its concentration is proportional to the body fat mass, and changes at a greater rate compared to weight loss, therefore it can be used as a key measure of diet efficiency. Strong correlation between plasma and salivary leptin levels allows monitoring leptin in saliva, and provides point-of-care (PoC) personalised insight into the success of individual weight loss programs.
During our ERC Synergy Grant we have developed an aptamer based approach to perform quantitative detection of protein molecules using nucleic acid amplification to overcome the complexities of current methods to enable PoC detection. The key idea (patent pending) is to amplify and quantify DNA displaced from DNA-aptamer complexes by Leptin molecules with real-time Loop Mediated Isothermal Amplification. We will use an Ion Sensitive Field Effect Transistor lab-on chip arrays. Now we need funds to further develop this technology and create a PoC platform to provide linear label-free ultrasensitive protein detection, reducing complexity, time-to-result and cost of the assay. Furthermore, the development of this novel molecular method will enable quantification of a broader number of protein targets and create one of the most sensitive PoC techniques for protein quantification, with applications far beyond appetite control (obesity, anorexia etc) management.
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Web resources: https://cordis.europa.eu/project/id/825796
Start date: 01-12-2018
End date: 30-11-2020
Total budget - Public funding: 149 956,25 Euro - 149 956,00 Euro
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Original description

The life expectancy in both EU and US fell in 2015. A third of premature deaths could be preventable and large part is due to obesity – a major risk factor for many chronic diseases including diabetes. Worldwide about 40% of adults are overweight and 13% obese. Regulation of food metabolism is becoming one of the main issues relevant to human health today. Obesity is preventable, however there are no currently available non-invasive and cost-effective obesity treatments, pointing to the need of novel diagnostic and prognostic tests. Leptin, a gut-hormone protein, has been shown to be crucial in regulating appetite and weight. Its concentration is proportional to the body fat mass, and changes at a greater rate compared to weight loss, therefore it can be used as a key measure of diet efficiency. Strong correlation between plasma and salivary leptin levels allows monitoring leptin in saliva, and provides point-of-care (PoC) personalised insight into the success of individual weight loss programs.
During our ERC Synergy Grant we have developed an aptamer based approach to perform quantitative detection of protein molecules using nucleic acid amplification to overcome the complexities of current methods to enable PoC detection. The key idea (patent pending) is to amplify and quantify DNA displaced from DNA-aptamer complexes by Leptin molecules with real-time Loop Mediated Isothermal Amplification. We will use an Ion Sensitive Field Effect Transistor lab-on chip arrays. Now we need funds to further develop this technology and create a PoC platform to provide linear label-free ultrasensitive protein detection, reducing complexity, time-to-result and cost of the assay. Furthermore, the development of this novel molecular method will enable quantification of a broader number of protein targets and create one of the most sensitive PoC techniques for protein quantification, with applications far beyond appetite control (obesity, anorexia etc) management.

Status

CLOSED

Call topic

ERC-2018-PoC

Update Date

27-04-2024
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Horizon 2020
H2020-EU.1. EXCELLENT SCIENCE
H2020-EU.1.1. EXCELLENT SCIENCE - European Research Council (ERC)
ERC-2018
ERC-2018-PoC