Biagio Todaro scite author profile

We have developed a fully synthetic and multifunctional antibody‐recruiting molecule (ARM) to guide natural antibodies already present in the blood stream against cancer cells without pre‐immunization. Our ARM is composed of antibody and tumor binding modules (i.e., ABM and TBM) displaying clustered rhamnose and cyclo‐RGD, respectively. By using a stepwise approach, we have first demonstrated the importance of multivalency for efficient recognition with naturel IgM and αvβ3 integrin expressing M21 tumor cell line. Once covalently conjugated by click chemistry, we confirmed by flow cytometry and confocal microscopy that the recognition properties of both the ABM and TBM are conserved, and more importantly, that the resulting ARM promotes the formation of a ternary complex between natural IgM and cancer cells, which is required for the stimulation of the cytotoxic immune response in vivo. Due to the efficiency of the synthetic process, a larger diversity of heterovalent ligands could be easily explored by using the same multivalent approach and could open new perspectives in this field.

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Is Raman the best strategy towards the development of non-invasive continuous glucose monitoring devices for diabetes management?

Todaro

Begarani²,

Sartori³

et al. 2022

Front. Chem.

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Diabetes has no well-established cure; thus, its management is critical for avoiding severe health complications involving multiple organs. This requires frequent glycaemia monitoring, and the gold standards for this are fingerstick tests. During the last decades, several blood-withdrawal-free platforms have been being studied to replace this test and to improve significantly the quality of life of people with diabetes (PWD). Devices estimating glycaemia level targeting blood or biofluids such as tears, saliva, breath and sweat, are gaining attention; however, most are not reliable, user-friendly and/or cheap. Given the complexity of the topic and the rise of diabetes, a careful analysis is essential to track scientific and industrial progresses in developing diabetes management systems. Here, we summarize the emerging blood glucose level (BGL) measurement methods and report some examples of devices which have been under development in the last decades, discussing the reasons for them not reaching the market or not being really non-invasive and continuous. After discussing more in depth the history of Raman spectroscopy-based researches and devices for BGL measurements, we will examine if this technique could have the potential for the development of a user-friendly, miniaturized, non-invasive and continuous blood glucose-monitoring device, which can operate reliably, without inter-patient variability, over sustained periods.

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Structural influence of antibody recruiting glycodendrimers (ARGs) on antitumoral cytotoxicity

et al. 2021

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Biagio Todaro

Multifunctional Glycoconjugates for Recruiting Natural Antibodies against Cancer Cells

Is Raman the best strategy towards the development of non-invasive continuous glucose monitoring devices for diabetes management?

Structural influence of antibody recruiting glycodendrimers (ARGs) on antitumoral cytotoxicity

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