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Sialic acid (SA) is a cell surface glycan, which has a decisive role in many cell activities including differentiation, proliferation, and the immune response. The amount of SA has been found to correlate with cancer, with an upregulation on more aggressive cancers. Therefore, there is a great interest in developing methods for detection of SA on cancer cells. We are screening SA on cancer cell lines by using fluorescent molecularly imprinted polymers, SA-MIPs. Macrophages, which evolve from mono-cytes, are well known for their extraordinary ability to phagocytose foreign objects. This could lead to the hypothesis that the SA-MIPs can be recognized by macrophages as foreign object; thus leading to internalization and potentially degradation.
We have demonstrated that SA-MIPs can be detected after incubation with the RAW macrophage cells, with increasing fluorescence over time. The microscopy analysis shows that the RAW cells ingest the SA-MIP particles. This information is important when planning to use SA-MIPs in future in vivo applications.
Sialic acid (SA) is a cell surface glycan, which has a strong role in many cell activities including differentiation, proliferation, and the immune response. The amount of SA has been found to be correlated with cancer, with an upregulation on more aggressive cancers. Therefore, there is great interest in developing methods for detection of SA on cancer cells. We are screening SA on cancer cell lines by using fluorescent molecularly imprinted polymers, SA-MIPs.Macrophages, which evolve from mono-cytes, are well known for their extraordinary ability to phagocytose foreign objects. This could lead to the hypothesis that the SA-MIPs can be recognized by macrophages as foreign object; thus leading to internalization and potential degradation. We have discovered that SA-MIPs can be detected after incubation with the RAW macrophage cells, with increasing fluorescence over time. The microscopy analysis shows that the RAW cells ingest the SA-MIP particles. This information is important when planning to use SA-MIPs in future in vivo applications.
Sialic acid (SA) is a cell surface glycan, which has been found to be upregulated on more aggressive cancers. Therefore, there is a great interest in developing methods for detection of SA on a great interest in developing methods for detection of SA o on cancer cells. We are screening SA on cell lines by fluorescent molecularly imprinted polymers, SA fluorescent molecularly imprinted polymers, SA fluorescent molecularly imprinted polymers, SA fluorescent molecularly imprinted polymers, SA fluorescent molecularly imprinted polymers, SA fluorescent molecularly imprinted polymers, SA -MIPs. Quantitative phase imaging (QPI) is a digital holographic technique. Various cellular parameters can be visualized and calculated from the particular hologram, including individual cell area, thickness, volume and population confluence and cell counts. The aim was to investigate the possible uptake of SA in macrophage cell lines in in vitro cell cultures and check if they affected the cell.