Screening for COVID-19 T-Cell Peptides and Immune Monitoring with MHC Tetramers In A Single Assay

Screening for COVID-19 T-Cell Peptides and Immune Monitoring with MHC Tetramers In A Single Assay

COVID-19 infected cells can be recognized by T-cells only after SARS-CoV-2 peptides are processed and presented in the context of self MHCs.

Identifying these peptides have essential utilities:

  • Immune monitoring: Using peptide-MHC tetramers to assess vaccine-induced immunity
  • Designing potent vaccines that elicit durable responses

T-cells are activated only by interacting with processed peptides (e.g. of SARS-CoV-2) that sit in the groove of MHC Class I and II molecules. Identifying these peptides can be used (in forms of peptide-MHC tetramers) to assess vaccine induced immunity and assist in designing potent vaccines with durable responses.

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MBL International can assist companies and academic investigators who are actively developing coronavirus vaccines with our unique QuickSwitch™ custom tetramer platform.  QuickSwitch™ is a peptide screening plug and play platform that identifies peptides that are more likely to be immunogenic and yet generates corresponding Class I and Class II MHC tetramers.  These platforms can identify and validate multi-epitope candidates of SARS-CoV-2 proteins that can potentially elicit for both CD4+ and CD8+ T-cell immune responses. In fact, the QuickSwitch™ custom tetramer kit has been used in peer-reviewed journals by Stephen J. Elledge and Steven A. Rosenberg teams 1,2.

Briefly, the protein sequence of SARS-CoV-2 is known and the predicted epitopes are identified and available published/reviewed by recent articles including one by Dr. Alex Sette:

A sequence homology and bioinformatic approach can predict candidate targets for immune responses to SARS-CoV-2

By using MBLI’s peptide screening MHC tetramer exchange QuickSwitch™ platform, you can identify/validate the binding of predicted peptide sequences of the COVID-19 viral proteins in most common alleles: H2Kb, A2, A11, A24, A3 and DR1, DR4, DR15.

We can help to evaluate hundreds of predicted peptides for their ability to sit in the groove of MHC Class I and II with answers to the following points of inquiry:

1. Does your vaccine elicit T-cell responses in hosts?

a. Validating peptide binding affinities to multiple MHC Class I and II alleles.

b. MHC tetramers for assessing and monitoring immune responses to individual peptides.

2. Information on immunogenic / protective peptides (vaccine design/fine tuning)

a. Identifying and validating promiscuous MHC class II epitopes.

b.Testing modified peptides on anchoring amino acids for optimal MHC binding and T-cell activation.

3. In addition, this platform can also be used in in vitro assays to identify immune-potentiating candidate agents for their ability to enhance vaccines potency.

Please contact us today for a personalized discussion to see how we can quickly help you gather accurate and relevant information for your research against COVID-19.

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Screening for COVID-19 T-Cell Peptides and Immune Monitoring with MHC Tetramers In A Single Assay
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