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Lisa
@LisaVettore
Post-doctoral researcher @SwantonLab at the Francis Crick Institute, UK
Joined October 2019
486 Following
247 Followers
416 Posts
Pan-cancer spatial atlas of tertiary lymphoid structures
https://t.co/VCjsaqtX4T
@ScienceMagazine @IamLinghua
@UTMDAnderson @kyungserkcho
How does oxygen sensing shape alveolar #macrophage (AM) identity?
In our new @CellReports HIF-1α and HIF-2α play distinct, non-redundant roles in AM maturation & function
A #metabolic split that defines macrophage biology in the lung.
OPEN: https://t.co/1pxnHMUWgZ
@CNIC_CARDIO
In vivo single-cell ribosome profiling reveals cell-type-specific translational programs during aging
https://t.co/XZ3LTO9FfX
Tumor-immune-neural circuit disrupts energy homeostasis in cancer cachexia https://t.co/wcUi6ZF6Jr
I'm officially an expert in failing! I was asked to give the opening keynote today for a @CRUKCamCentre conference, speaking on the topic "Failing in Science"
Incredible new paper from Max Krummel's group showing that macrophages sample cellular content from living cells to present to T cells! https://t.co/fcZBiyw41D
Nature research paper: Early fibrotic niches establish tumour-permissive microenvironments
https://t.co/59lRB5bioq
CAR-neutrophils produced in vivo to treat glioma @natBME @PurdueResearch @penn_state
https://t.co/uFwVeB8n1a
Do not miss the opportunity to join a great community and catch up on the latest developments in Cancer Metabolism. Terrific lineup + many many slots for selected speakers. Sponsored Travel Grants available. REGISTRATIONS ARE OPEN.
New research in Nature suggests cancer cells can learn to resist therapy, not by mutating, but by reprogramming themselves.
In #lungcancer, resistance to targeted treatments is a significant challenge. Understanding how this happens is an important step in the search for better treatment
🔗 https://t.co/RvSA6FljUj #LCSM
We have an exciting new story out at @ScienceMagazine's Science Immunology! It is about using #AAV cytokine delivery to change the lung environment. We can boost #lung #Tregs or delivery anti-inflammatory #cytokines, preventing fatal respiratory collapse
https://t.co/Duj2MXx6VX
Our new work by @shanshanliu1218 and @gadmark addresses a fundamental question: how does ER maintain its unique oxidizing environment, while rest of the cell is reducing? Here, we identify SLC33A1 as the major ER GSSG exporter in mammalian cells. https://t.co/cmbOm2u3t7
Towards Spatial Medicine for individualized cancer immunotherapy @SciImmunology
"The convergence of spatial biology platforms, single-cell immune profiling, and machine learning is positioning the community to decode how T cell immunity is spatially organized in human tissues and to
exploit that organization therapeutically"
https://t.co/tYaEyusANy
https://t.co/AHvBzGQE2e
🚨Paper alert🚨 Very excited to share our manuscript, published today in @ImmunityCP, where we describe how ‘Nonsense-mediated mRNA decay inhibition reshapes the cancer immunopeptidome’. (1/16) https://t.co/S58jZLKZ7G
Exposed phosphatidylserine is an inhibitory molecule in T cell exhaustion @Nature @EmoryUniversity @rafiahmed_lab
https://t.co/fUvGgSJhaq
#Macrophages can restrict immune infiltration of #tumors by inhibiting the formation of collagen III-rich networks that permit T cell and neutrophil entry. @heleneDmoreau @LennonLab
Learn more in Science #Immunology: https://t.co/gHEPYlM3P7
The Sim lab has been hard at work and we’re proud to present our first paper.
We developed new methods to study peptide:KIR interactions.
Congratulations to star postdoc Tanusya Murali who led the project.
https://t.co/hN0fbGOSRx
@biorxivpreprint CRY-NLRP3 complexes are a circadian checkpoint that modulates inflammasome activity and drug response, revealing time of day as a critical dimension of NLRP3-driven inflammation
https://t.co/qvKIh365jK @AnneLaureHuber1 @Inserm 🇫🇷
We're changing our environment faster than our biology can adapt. Papers like this make clear that understanding the immunological consequences of environmental exposures is central to human health.
Adipocyte NADH dehydrogenase reverses circadian and diet-induced metabolic syndrome https://t.co/p77B1i2Ufv
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