Tool analyses disease and drug effects with accuracy

15th May 2018
Posted By : Enaie Azambuja
Tool analyses disease and drug effects with accuracy

A new protein analysis tool developed at the University at Buffalo could vastly increase the speed and precision with which disease and drug effects are analysed. The groundbreaking tool, called IonStar, is the first to provide near-perfect accuracy when quantifying and comparing the abundance of proteins in the bodies of people who are healthy and ill.

Compared to industry standard MaxQuant, IonStar improved the measurement consistency of proteins in low abundance and lowered the amount of missing data in results from 17% to 0.1%, a level that has never been achieved with large samples.

The new tool could increase the quality and accuracy of medical diagnosis and quicken the pace of pharmaceutical development.

“IonStar will totally change the face of clinical and pharmaceutical research and industry, where large investigations are often critical,” said Jun Qu, PhD, lead investigator and professor in the UB School of Pharmacy and Pharmaceutical Sciences. The research was published in the Proceedings of the National Academy of Sciences (PNAS).

The abundance of proteins in the body that correspond with disease or pharmaceutical reactions can provide researchers with vital clues for accurately diagnosing a condition, and for developing potential therapies and evaluating drug effects.

Protein analysis tools are used to quantify and compare the abundance of proteins in groups of healthy individuals with those who are ill or treated with a drug. Changes in protein abundances, when analysed together, often reveal novel biomarkers.

The challenge for researchers is that current tools are not efficient at analysing large numbers of samples. One type of method, the labeling-method, uses chemical tags to label proteins. The issue: The software can only analyse up to 10 samples at a time, making it difficult for researchers to conduct typical pharmaceutical and clinical studies, said Qu.

The alternative, the label-free method, can analyse a large number of samples at once at the expense of accuracy and precision, causing researchers to waste time and resources validating falsely identified biomarkers.

IonStar increases accuracy and precision and lowers missing data by improving on sample preparation methods, alignment and feature detection designs for mass spectrometry analysis.

“For example, in clinical trials, comparing a handful of patients gets you nowhere,” said Qu. “If you can analyse a large number of patients with high-quality data, you can discover and track biomarkers much more accurately and reliably. The same is true for pharmaceutical investigations.”

Researchers used IonStar to quantify proteins in rats with traumatic brain injury, a debilitating condition that accounts for 2.2 million emergency room visits annually in the United States. Using 100 tissue samples, IonStar identified 7,000 proteins, including 1,000 that differed in abundance, without missing data.

IonStar also measured low-abundance proteins with higher accuracy and precision than other prevalent analysis tools. This capability is critical, said Qu, because proteins that appear in smaller amounts play a more influential role in the body.

“If higher-level proteins are soldiers, then lower-level proteins are the commanders. They are the regulators that tell the higher-level proteins what to do,” said Qu.

Qu has used IonStar and similar techniques to analyse protein variation in cancer, diabetes, cardiovascular disease, neurodegeneration and retina degeneration as well. Future work on IonStar will focus on expanding the number of samples the tool can analyse.


Discover more here.

Image credit: University at Buffalo.


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