Good morning science Twitter 😁🧬🔬 Our deep profiling of human IL-10-producing B cells by single-cell, highly multiplexed cytometry analysis is live on @biorxivpreprint! #bcellsrule
1/n
As all you immunology researchers know well, Tregs are the 'popular' lymphocytes when it come to regulatory immune cells. Yet, there is provocative evidence that regulatory B cells (#Bregs) also mediate anti-inflammatory function, primarily through production of #IL10.
2/n
Many knowledge gaps remain with respect to the optimal signals to induce Bregs, their phenotypic and functional diversity across healthy humans, and the potential of canonical B cell subsets to give rise to IL-10-producing cells.
3/n
Where to start with so many Breg questions?! We first performed a massive screen of B cell activating conditions. #biorender
4/n Image
Our screen showed TLR9 activation with CD40 engagement and exogenous cytokines induced optimal production of IL-10 by B cells. P.S. I'm very proud of these biaxials!
5/n Image
Then, to capture the phenotypic heterogeneity and polyfunctionality of human IL-10-producing B cells, we developed a custom mass cytometry (#CyTOF) panel and analysis pipeline to deeply profile immunophenotype and regulatory protein expression.
6/n
A significant portion of IL-10+ B cells co-expressed proinflammatory cytokines.
7/n Image
Our also data showed IL-10-producing cells were not restricted to a single, unique phenotype that was consistent across stimulatory conditions.
8/n Image
To understand the temporal dynamics of IL-10 and proinflammatory cytokine co-expression, as well as how the immunophenotype of stimulated and IL-10+ B cells compare over time, we performed a timecourse of B cell activation.
9/n Image
Our timecourse data revealed that proinflammatory cytokine production precedes IL-10 expression in the course of B cell activation.
10/n Image
IL-10+ and total stimulated B cell phenotypes were highly overlapping across timepoints. When we compared IL-10+ and IL-10- populations, a handful of surface markers showed more significant upregulation by IL-10+ cells (but they are upregulated by both populations!).
11/n Image
But wait... what are these IL-10-producing cells?! Are certain functional B cell subsets more likely to express IL-10 upon activation? To clarify this, we isolated and labeled canonical B cell subsets, and traced them in our IL-10 production assay.
12/n Image
We found notable variation in the proportion of IL-10+ B cells by subset and individual (but the rank order was the same for each individual!), as well as in IL-10+ B cell TNFa and IL-6 expression levels by subset.
13/n Image
We also laid out how the IL-10-inducing activation process changes the resting immunophenotype of each B cell subset.
14/n Image
We determined the IL-10+:TNFa+ ratio for each subset, an analysis first employed by @AravindCheruku1 ! Transitional B cells had the highest ratio by a long stretch, meaning they were enriched for IL-10 production upon activation!
15/n Image
In summary, our healthy human B cell studies found that IL-10-producing cells constitute an induced, transient, yet multifunctional state, arising from a diversity of B cell subsets.
16/n
To identify unique characteristics of IL-10+ B cells in a context of immune tolerance, we applied our analytical framework to data for liver transplant recipients that maintained their graft function in the absence of immunosuppression, termed 'operationally tolerant'.
17/n Image
Our analysis revealed a significant enrichment of IL-10-producing B cells in the cohort of operationally tolerant transplant recipients, which was not the case for proinflammatory cytokine-producing B cells.
18/n Image
Collectively, the (cytometry) evidence points to these IL-10-producing B cells or Bregs representing a immunoregulatory cellular state, rather than a fixed/stable cell subset with a defined immunophenotype. #stopytryingtomakebregsasubset
19/n
We hope this work will serve as resource for future regulatory B cell studies. There is still much work to be done in the realm of IL-10-producing B cells in healthy humans and in disease states, and we look forward to seeing what more will be discovered from here!
20/n
Also, HUGE THANK YOU to our research team at #StanfordMed @TILStanford @Bendall_Lab @david_r_glass @jp_oliveria @BereniceMbiri @smkrams @martinezoliviam and many others who helped with this study 🙏
n/n

• • •

Missing some Tweet in this thread? You can try to force a refresh
 

Keep Current with Marla (Mcpherson) Glass

Marla (Mcpherson) Glass Profile picture

Stay in touch and get notified when new unrolls are available from this author!

Read all threads

This Thread may be Removed Anytime!

PDF

Twitter may remove this content at anytime! Save it as PDF for later use!

Try unrolling a thread yourself!

how to unroll video
  1. Follow @ThreadReaderApp to mention us!

  2. From a Twitter thread mention us with a keyword "unroll"
@threadreaderapp unroll

Practice here first or read more on our help page!

Did Thread Reader help you today?

Support us! We are indie developers!


This site is made by just two indie developers on a laptop doing marketing, support and development! Read more about the story.

Become a Premium Member ($3/month or $30/year) and get exclusive features!

Become Premium

Don't want to be a Premium member but still want to support us?

Make a small donation by buying us coffee ($5) or help with server cost ($10)

Donate via Paypal

Or Donate anonymously using crypto!

Ethereum

0xfe58350B80634f60Fa6Dc149a72b4DFbc17D341E copy

Bitcoin

3ATGMxNzCUFzxpMCHL5sWSt4DVtS8UqXpi copy

Thank you for your support!

Follow Us on Twitter!

:(