Marta Sánchez‐Díez scite author profile

Protein expression profiles are directly related to the different properties of cells and are conditioned by the cellular niche. As an example, they are the cause of the characteristic cell plasticity, epithelium–mesenchymal transition (EMT), and drug resistance of cancer cells. This article characterizes ten biomarkers related to these features in three human colorectal cancer cell lines: SW-480, SW-620, and DLD-1, evaluated by flow cytometry; and in turn, resistance to oxaliplatin is studied through dose–response trials. The main biomarkers present in the three studied lines correspond to EpCAM, CD-133, and AC-133, with the latter two in low proportions in the DLD-1 line. The biomarker CD166 is present in greater amounts in SW-620 and DLD-1 compared to SW-480. Finally, DLD-1 shows high values of Trop2, which may explain the aggressiveness and resistance of these cells to oxaliplatin treatments, as EpCAM is also highly expressed. Exposure to oxaliplatin slows cell growth but also helps generate resistance to the treatment. In conclusion, the response of the cell lines is variable, due to their genetic variability, which will condition protein expression and cell growth. Further analyses in this area will provide important information for better understanding of patients’ cellular response and how to prevent resistance.

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Discarded cross‐allergy between miracle berry (Synsepalum dulcificum) and peanut

Menéndez‐Rey

Jerez‐Arroyo

Alegría‐Aravena

et al. 2022

Int J of Food Sci Tech

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Summary Peanut allergies are one of the food allergies with the highest prevalence and mortality due to anaphylaxis, drastically reducing the quality of life of people who suffer from it. In the case of Novel Foods, such as the miracle berry from Synsepalum dulcificum, there is insufficient evidence regarding their allergenic potential. An exhaustive analysis was carried out to study potential cross‐allergy effects between miracle berries and peanuts. First, both an in silico allergenicity prediction model based on sequence homology and an in silico structure homology test were designed to evaluate miraculin cross‐reactivity against Ara h allergens. Second, an in vitro ELISA assay using blood sera from peanut‐allergic patients was executed to discard the possibility of cross‐reaction with total protein content from the berry. The obtained results ruled out the presence of cross‐allergy, leading to the conclusion that consumption of this berry presents no risk for patients with this allergy.

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Moonlighting Role of PEDF in Breast Cancer

Gil-Gas

Sánchez‐Díez

Honrubia-Gómez

et al. 2020

Preprint

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Background: Breast cancer is the leading cause of death among females in developed countries. Although the implementation of screening tests and the development of new therapies has increased the probability of remission, relapse rates still remain high. Numerous studies have indicated the connection between cancer initiating cells and slow cellular cycle cells, identified by their capacity to retain long labelling (LT+). Methods: We have designed a transgenic protein consisting in the C-terminal part of this protein, which acts by blocking endogenous PEDF in culture cell assays. Present work is based in doses-response in vitro assays as well as flow cytometry analysis of surface markers and cell cycle kinetic study of the tumour initiating cells.Results: In this study we show that this type of cells is present not only in cancer cell lines but also in cancer cells from patients with metastatic and advanced stage tumours. We also present new assays showing how stem cell self-renewal modulating proteins, such as PEDF, can modify the properties, expression of markers, and carcinogenicity of cancer stem cells. This protein has been involved in self-renewal in adult stem cells and has been described as anti-tumoral because of its anti-angiogenic effect. However, we show that PEDF enhances resistance in breast cancer patient cells in vitro culture by favoring a slow cellular cycle population (LT+). The PEDF signalling pathway could be a useful tool for controlling cancer stem cells self-renewal, and therefore control patient relapse. Conclusions: We demonstrate that it is possible to interfere with the self-renewal capacity of cancer stem cells, induce anoikis in vivo, and reduce resistance against Docetaxel treatment in cancer patient cells in vitro culture. We have also demonstrated that this PEDF modified protein produces a significant decrease in cancer stem cell markers. All these properties make this protein a potential application in clinical cancer therapies via co-administration with chemotherapy for relapse cancer treatment.

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Author response for "Discarded cross‐allergy between miracle berry ( <i>Synsepalum dulcificum</i> ) and peanut"

Menéndez‐Rey¹,

Jerez‐Arroyo²,

Alegría‐Aravena³

et al. 2022

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