Sara Zalba scite author profile

Cancer is a complex disease involving numerous biological processes, which can exist in parallel, can be complementary, or are engaged when needed and as such can replace each other. This redundancy in possibilities cancer cells have, are fundamental to failure of therapy. However, intrinsic features of tumor cells and tumors as a whole provide also opportunities for therapy. Here we discuss the unique and specific makeup and arrangement of cell membranes of tumor cells and how these may help treatment. Interestingly, knowledge on cell membranes and associated structures is present already for decades, while application of membrane modification and manipulation as part of cancer therapy is lagging. Recent developments of scientific tools concerning lipids and lipid metabolism, opened new and previously unknown aspects of tumor cells and indicate possible differences in lipid composition and membrane function of tumor cells compared to healthy cells. This field, coined Lipidomics, demonstrates the importance of lipid components in cell membrane in several illnesses. Important alterations in cancer, and specially in resistant cancer cells compared to normal cells, opened the door to new therapeutic strategies. Moreover, the ability to modulate membrane components and/or properties has become a reality. Here, developments in cancer-related Lipidomics and strategies to interfere specifically with cancer cell membranes and how these affect cancer treatment are discussed. We hypothesize that combination of lipid or membrane targeted strategies with available care to improve chemotherapy, radiotherapy and immunotherapy will bring the much needed change in treatment in the years to come.

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Cetuximab-oxaliplatin-liposomes for epidermal growth factor receptor targeted chemotherapy of colorectal cancer

Zalba

López-Contreras

Haeri

et al. 2015

Journal of Controlled Release

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Pharmacodynamics of cisplatin-loaded PLGA nanoparticles administered to tumor-bearing mice

Moreno

Zalba

Navarro

et al. 2010

European Journal of Pharmaceutics and Biopharmaceutics

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Immunoliposomes in clinical oncology: State of the art and future perspectives

Merino

Zalba

Garrido

2018

Journal of Controlled Release

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Liposomes, a promising strategy for clinical application of platinum derivatives

Zalba

Garrido

2013

Expert Opinion on Drug Delivery

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The design of liposomes to achieve effectiveness in antitumor treatment is a goal for platinum derivatives. Liposomes can change the pharmacokinetic parameters of these encapsulated drugs, reducing their side effects. However, few liposomal formulations have demonstrated a significant advantage in therapeutic terms. Lipoplatin, a cisplatin formulation in Phase III, combines a reduction in the toxicity associated with an antitumor activity similar to the free drug. Thermosensitive or targeted liposomes for tumor therapy are also included in this review. Few articles about this strategy applied to platinum drugs can be found in the literature.

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Stealth nanoparticles in oncology: Facing the PEG dilemma

Zalba

Hagen

Burgui

et al. 2022

Journal of Controlled Release

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Targeting melanoma with immunoliposomes coupled to anti-MAGE A1 TCR-like single-chain antibody

Saeed

Brakel

Zalba

et al. 2016

IJN

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Therapy of melanoma using T-cells with genetically introduced T-cell receptors (TCRs) directed against a tumor-selective cancer testis antigen (CTA) NY-ESO1 demonstrated clear antitumor responses in patients without side effects. Here, we exploited the concept of TCR-mediated targeting through introduction of single-chain variable fragment (scFv) antibodies that mimic TCRs in binding major histocompatibility complex-restricted CTA. We produced scFv antibodies directed against Melanoma AntiGEn A1 (MAGE A1) presented by human leukocyte antigen A1 (HLA-A1), in short M1/A1, and coupled these TCR-like antibodies to liposomes to achieve specific melanoma targeting. Two anti-M1/A1 antibodies with different ligand-binding affinities were derived from a phage-display library and reformatted into scFvs with an added cysteine at their carboxyl termini. Protein production conditions, ie, bacterial strain, temperature, time, and compartments, were optimized, and following production, scFv proteins were purified by immobilized metal ion affinity chromatography. Batches of pure scFvs were validated for specific binding to M1/A1-positive B-cells by flow cytometry. Coupling of scFvs to liposomes was conducted by employing different conditions, and an optimized procedure was achieved. In vitro experiments with immunoliposomes demonstrated binding of M1/A1-positive B-cells as well as M1/A1-positive melanoma cells and internalization by these cells using flow cytometry and confocal microscopy. Notably, the scFv with nonenhanced affinity of M1/A1, but not the one with enhanced affinity, was exclusively bound to and internalized by melanoma tumor cells expressing M1/A1. Taken together, antigen-mediated targeting of tumor cells as well as promoting internalization of nanoparticles by these tumor cells is mediated by TCR-like scFv and can contribute to melanoma-specific targeting.

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A new immune-nanoplatform for promoting adaptive antitumor immune response

Merino

López-Contreras

Casares

et al. 2019

Nanomedicine: Nanotechnology, Biology and Medicine

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Sara Zalba

Cell membrane modulation as adjuvant in cancer therapy

Cetuximab-oxaliplatin-liposomes for epidermal growth factor receptor targeted chemotherapy of colorectal cancer

Pharmacodynamics of cisplatin-loaded PLGA nanoparticles administered to tumor-bearing mice

Immunoliposomes in clinical oncology: State of the art and future perspectives

Liposomes, a promising strategy for clinical application of platinum derivatives

Stealth nanoparticles in oncology: Facing the PEG dilemma

Targeting melanoma with immunoliposomes coupled to anti-MAGE A1 TCR-like single-chain antibody

A new immune-nanoplatform for promoting adaptive antitumor immune response

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