25 research outputs found
Targeting of EGFR by a combination of antibodies mediates unconventional EGFR trafficking and degradation
Antibody combinations targeting cell surface receptors are a new modality of cancer therapy. The trafficking and signalling mechanisms regulated by such therapeutics are not fully understood but could underlie differential tumour responses. We explored EGFR trafficking upon treatment with the antibody combination Sym004 which has shown promise clinically. Sym004 promoted EGFR endocytosis distinctly from EGF: it was asynchronous, not accompanied by canonical signalling events and involved EGFR clustering within detergent-insoluble plasma mebrane-associated tubules. Sym004 induced lysosomal degradation independently of EGFR ubiquitylation but dependent upon Hrs/Tsg101 that are required for the formation of intraluminal vesicles (ILVs) within late endosomes. We propose Sym004 cross-links EGFR physically triggering EGFR endocytosis and incorporation onto ILVs and so Sym004 sensitivity correlates with EGFR numbers available for binding, rather than specific signalling events. Consistently Sym004 efficacy and potentiation of cisplatin responses correlated with EGFR surface expression in head and neck cancer cells. These findings will have implications in understanding the mode of action of this new class of cancer therapeutics
Inflammatory lipoproteins purified from a toxigenic and arthritogenic strain of Mycoplasma arthritidis are dependent on Toll-like receptor 2 and CD14
Ibuprofen mediates histone modification to diminish cancer cell stemness properties via a COX2-dependent manner
Reprogramming of pro-inflammatory human macrophages to an anti-inflammatory phenotype by bile acids
Cholestasis is caused by autoimmune reactions, drug-induced hepatotoxicity, viral infections of the liver and the obstruction of bile ducts by tumours or gallstones. Cholestatic conditions are associated with impaired innate and adaptive immunity, including alterations of the cellular functions of monocytes, macrophages, NK cells and T-cells. Bile acids act as signalling molecules, affecting lipopolysaccharide (LPS)-induced cytokine expression in primary human macrophages. The present manuscript investigates the impact of bile acids, such as taurolithocholic acid (TLC), on the transcriptome of human macrophages in the presence or absence of LPS. While TLC itself has almost no effect on gene expression under control conditions, this compound modulates the expression of 202 out of 865 transcripts in the presence of LPS. Interestingly, pathway analysis revealed that TLC specifically supressed the expression of genes involved in mediating pro-inflammatory effects, phagocytosis, interactions with pathogens and autophagy as well as the recruitment of immune cells, such as NK cells, neutrophils and T cells. These data indicate a broad influence of bile acids on inflammatory responses and immune functions in macrophages. These findings may contribute to the clinical observation that patients with cholestasis present a lack of response to bacterial or viral infections
Recommended from our members
Single-cell tracking of flavivirus RNA uncovers species-specific interactions with the immune system dictating disease outcome
Positive-sense RNA viruses pose increasing health and economic concerns worldwide. Our
limited understanding of how these viruses interact with their host and how these processes
lead to virulence and disease seriously hampers the development of anti-viral strategies.
Here, we demonstrate the tracking of ( þ ) and ( ) sense viral RNA at single-cell resolution
within complex subsets of the human and murine immune system in different mouse models.
Our results provide insights into how a prototypic flavivirus, yellow fever virus (YFV-17D),
differentially interacts with murine and human hematopoietic cells in these mouse models
and how these dynamics influence distinct outcomes of infection. We detect ( ) YFV-17D
RNA in specific secondary lymphoid compartments and cell subsets not previously
recognized as permissive for YFV replication, and we highlight potential virus–host interaction
events that could be pivotal in regulating flavivirus virulence and attenuation