Protein biomarkers are increasingly used in clinical research to identify protein signatures that can predict outcomes, stratify patient populations, and provide insights into disease biology. Proteomics technologies have been restricted, however, by limitations in throughput, multiplexing level, specificity, and sensitivity.
Recent developments in multiplex technologies that enable high-throughput analysis of many proteins simultaneously, while using minimal volumes of biological samples, are accelerating the utility of proteomics.
Olink Proximity Extension Assay (PEA) technology featuring dual-recognition with matched DNA oligo-linked antibody pairs and qPCR readout has already been used to generate >160 million protein data points and ~400 peer-reviewed publications. Newly launched, Olink® Explore 1536 now takes this to an entirely new level, with PEA coupled to next-generation sequencing (NGS) readout enabling 1,472 proteins to be measured with just 3 µL plasma/serum and a throughput of 1.3 million protein data points/week on one instrument.
All this and more is discussed in our on-demand webinar with Dr. Ida Grundberg, Chief Scientific Officer, and Dr. Erika Assarsson, Head of R&D, Olink Proteomics, who explain how this new technology could be a game changer for proteomics.
Read on for highlights from the live Q&A session or register here to watch it any time that suits you.
IG: In general, it’s a good complement to mass spectrometry for a broader discovery – together with our platform, we believe that you can get a more complete picture of the proteome.
However, what we have heard from working closely with our mass spec collaborators are the challenges that they have with throughput of samples, the processing they require to be able to screen their samples, and the volume of samples needed – but that is the strong advantage with our technology. With Olink Explore going up to 3K and 4.5K proteins, I think our platform can perform well.
IG: We believe so, but that's one of the reasons why we choose to be very transparent. So, we share all the internal data that we generate, but we have this great community that we have built where we share all the external data, all the publications that are out there, all the correlation and comparisons that we have done to other platforms. Over 173 million protein data points generated and well over 400 peer-reviewed publications so far provide good external evidence, and maybe it really is just that good!
IG: Yes, we have for the Explore product. When we use the semi-automated system, we perform the first reaction in even lower volumes. So, we run the mosquito by SPT Labtech which takes 0.2 microliters of the sample into the reaction, which works well and going even below that, we have tested that with one acoustic instrument that did not work satisfactory, at least not for the feasibility that we performed. I think the limit will be when you reach too low a volume, you would simply have too few molecules for some proteins to get a very precise measurement.
IG: Yes, the big panel includes roughly 1,500 proteins. We can customize the panel and that is shown here on this slide; we call that the focus panel. So, once you have discovered the signature through our discovery panels, we can design a focused panel only with those most significant candidates. So, yes, that's possible.
IG: It has not been published yet, it's still unpublished data. So, we are working on the first manuscript from the pilot study and we'll, of course, continue with this analysis as quickly as we can.
IG: Of course, there's always a possibility, but I would say that the likelihood is very low because for each probe, you will have a very low risk of false findings and the same goes for the second probe. With that low likelihood, we have assessed this in many ways. So, we feel very confident with our specificity of the product, but yes, it's hard to say for sure.
IG: Yes, we have. When we lyse the tissue and take a microliter of that, it works well. We have done this in a number of studies, especially in the oncology space, and since we're using such small volumes, you don't need to have a big block of the tissue but just a tiny microbiopsy is sufficient.
IG: We validate on both sample matrices and also on the validation data that we shared. You can see how they correlate with each other. So, in general, we have high detectability in both matrices. We have slightly higher detectability in serum. In some more extreme conditions, in severe cardiovascular diseases, for example, there are some markers in serum that can be highly elevated. In those cases, maybe more extreme cases, we recommend plasma, but both matrices will generate good data.
IG: The output data from the qPCR and NGS will both reflect the relative differences from sample to sample within each assay. The way we handle this, the output data – the raw data coming from the NGS reader – we perform log transformation of the counts. After that, we perform very similar normalization procedures. With that, we also get very comparable data for relative quantification.
IG: Yes, but for the absolute quantification panels, we use standard carves for each analyte, we run everything at the multiplex. For the data, we present where we assess the sensitivity of our relative quantification panels. We also generate the standard curve for each individual assay, but we run everything in multiplex during a validation. By doing so, we can establish all the sensitivity parameters such as LoD and the upper Limit of Quantitation from the dynamic range. So, it is the standard curve for each analyte, but it's always run in multiplex to make it feasible. Our validation data is on our website, you can go there and find the standard curve for each analyte. So the short answer is yes, but note that these validation curves are generated using recombinant proteins in vitro and can’t be used to calculate absolute concentrations in biological samples.
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