Until recently focused on HIV research, the Infectious Disease Unit Research Department at Aarhus University Hospital, Skejby is now heavily involved in research into the novel coronavirus. As is the case worldwide, the urgency to find an effective vaccine, as well as treatments for COVID-19 has inspired many basic research, translational, and clinical organizations to bring their own considerable expertise in immunology to the joint effort. We caught up with Dr. Mariane Høgsbjerg Schleimann to learn a little more.
Our department is essentially a combination of hospital and university, with medical doctors and PhD students, post docs, and other scientists all forming part of the team. Altogether, we’re made up of three individual but closely interlinking groups comprising around 40 people in total, all of whom are looking at infectious diseases and clinical medicine on a daily basis. Currently, one of several aims is to discover neutralizing antibodies to use in corona therapy, something we are also attempting to use in our regular HIV research; it’s a new therapeutic approach with, we hope, a great deal of potential.
I imagine many of us get into cellular biology to be part of the effort to find cures and treatments for various diseases, to help people that are sick. By doing it here at the hospital, we are of course close to where the patients are: we get their actual samples and work with them directly. My PhD research gave me a lot of knowledge, and there’s no doubt that this work, and the work of others in this field, is extremely important, but for me I get real satisfaction out of being so close to the infection whilst working on how to cure it; that closeness to the patients and medical doctors – seeing the difference we make, often in real time, is more than motivation enough to keep working at the challenges.
Yes. When the instrument was demonstrated for us, we actually wanted to use it to sort CD4+ T cell subsets from HIV-positive patient material. Facing the recent crisis, we swapped our scope to SARS-CoV-2 research with the aim of developing a new antibody-based treatment. Our intended workflow is to get plasma from recovered COVID-19–patients, incubate it with the virus, and measure the levels of neutralization. If we find we have good neutralizers, we also test them against 2002’s SARS virus. In the next step, we´ll be trying to isolate B cells from those patients that can affect both viruses. This way, we hope to harvest antibodies that can be used in treatment. We also use its spike protein coupled to a fluorophore as the bait to mark the B cells that express and produce SARS-CoV-2–specific antibodies.
The MACSQuant Tyto Cell Sorter is a good fit for us because we can use it on plasma cells, memory B cells, or whatever our targets will be. The critical step is sorting B cells from previously infected patients.
There’s no evidence that the virus is still present in peripheral blood of recovered patients, but we take no chances and treat them as if they are still infected. This means a regular droplet sorter of any kind is completely incapable of meeting our needs.
Yes: we don’t have access to a cell sorter in BSL3 rooms, which is recommended for working with infectious samples and aerosol-producing lab equipment. The MACSQuant® Tyto® Cartridge makes it safe to move our samples around to BSL2 or even BSL1 because it´s fully closed. When we work with concentrated virus, that happens in a BSL3 room. As the virus is not concentrated in patients’ plasma itself, it can be handled in a BSL1 or BSL2 lab. Nonetheless, droplet based sorting on conventional machines has to happen in a biological safety cabinet or BSL3 due to aerosol formation. In contrast to that, we set up the MACSQuant Tyto in a BSL1 lab, and still can use it to sort cells from COVID-19 patients.
In the first step, we isolate antigen specific B cells using the MACSQuant Tyto. Next, we perform single cell DNA extraction to PCR amplify the gene sequences for the antibodies, which we then use to build and reproduce the antibodies we’re so interested in. Those antibodies are then used to attempt to neutralize the virus in BSL3 conditions.
We plan to take material from five patients where we found that their plasma could neutralize the virus and sort out the B cells. From there, we are planning to produce antibodies from 200 antigen-specific B cells per patient that we would further analyze in a 96-well–based high throughput screening assay. We are optimistic that the size of this screen will be sufficient to identify promising candidates.
It always comes back to the safety issue. That is by far and away the major benefit, but it’s also great that getting hands-on with the instrument requires no in-depth training. Once it’s all set up, a lab manager can be trained to use it easily: they don’t need all the flow cytometry background knowledge. But definitely, being able to rely on closed, sterile containment is incredibly useful to our work: the sorting itself is what created a safety issue, and was the most critical part. With the Tyto everything’s far more practical: there is no longer a critical step as such. Our workflow is running smoothly.
No, though we plan to make much greater use of it soon: we want to invite our colleagues studying influenza and polio to take part. As for the flow core unit at the university: they currently have no opportunity to do infectious material sorting, so they are looking for funding for a MACSQuant Tyto Cell Sorter of their own.
Nothing we’re planning is, but if, for example, a group wanted to do high titer in vitro infection and look at all kinds of -omics, then sure. In most basic immunology/virology settings and generally anywhere where in vitro or ex vivo cells have been infected and interest is in the infected cells only. High concentrations of virus that would necessitate a BSL3 setting would absolutely benefit greatly from MACSQuant Tyto Cell Sorter.
I have only good things to say: it’s all been very professional. Our local Miltenyi Biotec representatives are great communicators; they know us well, they understand our needs, and can make great recommendations. We’ve worked with them for years, and in this particular instance, after seeing the MACSQuant Tyto Cell Sorter demo and getting funding, we had it on the premises two days later, and installed just a day after that. I’ve never seen similar processes go so smoothly. And our Miltenyi Biotec trainer was able to adapt easily on the fly to our knowledge level and meet us appropriately. We love your products! They run smoothly, they’re beautiful: no waste, no nothing!
Dr. Mariane Høgsbjerg Schleimann obtained her PhD in Biology and Immunology in 2014, and currently works as a post-doc and project manager at the Department of Infectious Diseases, Aarhus University Hospital, Skejby.
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