Cell membrane modulation as adjuvant in cancer therapy

Zalba, Sara; Hagen, Timo L.M. ten

doi:10.1016/j.ctrv.2016.10.008

Cited by 257 publications

(238 citation statements)

References 105 publications

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“…3b). These changes can be triggered by various stimuli, including genetic mutations, abnormal epigenetic modifications, and carcinogenic substances [23, 233–236]. If allowed to operate unchecked, the resulting loss of homeostasis can lead to reprogramming of vital cellular features such as plasma membrane order and nanoclustering (Fig.…”

Section: Dysregulation Of Plasma Membrane Biochemical and Biophysicalmentioning

confidence: 99%

Functional link between plasma membrane spatiotemporal dynamics, cancer biology, and dietary membrane-altering agents

Erazo-Oliveras

Fuentes

Wright

et al. 2018

Cancer Metastasis Rev

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The cell plasma membrane serves as a nexus integrating extra- and intracellular components, which together enable many of the fundamental cellular signaling processes that sustain life. In order to perform this key function, plasma membrane components assemble into well-defined domains exhibiting distinct biochemical and biophysical properties that modulate various signaling events. Dysregulation of these highly dynamic membrane domains can promote oncogenic signaling. Recently, it has been demonstrated that select membrane-targeted dietary bioactives (MTDBs) have the ability to remodel plasma membrane domains and subsequently reduce cancer risk. In this review, we focus on the importance of plasma membrane domain structural and signaling functionalities as well as how loss of membrane homeostasis can drive aberrant signaling. Additionally, we discuss the intricacies associated with the investigation of these membrane domain features and their associations with cancer biology. Lastly, we describe the current literature focusing on MTDBs, including mechanisms of chemoprevention and therapeutics in order to establish a functional link between these membrane-altering biomolecules, tuning of plasma membrane hierarchal organization, and their implications in cancer prevention.

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Section: Dysregulation Of Plasma Membrane Biochemical and Biophysicalmentioning

confidence: 99%

Functional link between plasma membrane spatiotemporal dynamics, cancer biology, and dietary membrane-altering agents

Erazo-Oliveras

Fuentes

Wright

et al. 2018

Cancer Metastasis Rev

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“…Both SFAs and MUFAs are implicated in alterations within cancer cell membrane composition known as membrane lipid saturation. These FA classes are more resistant to lipid peroxidation, which in turn protects cancerous cells against oxidative stress induced by therapies (11,12). The role of omega-6 (n-6) PUFAs in breast cancer development, progression as well as treatment resistance, includes n-6 PUFAs exhibiting pro-inflammatory effects mediated by lipid-derived bioactive mediators i.e., eicosanoids, prostaglandins and leukotrienes (13,14).…”

Section: Introductionmentioning

confidence: 99%

Decreased Efficacy of Doxorubicin Corresponds With Modifications in Lipid Metabolism Markers and Fatty Acid Profiles in Breast Tumors From Obese vs. Lean Mice

et al. 2020

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Breast cancer cells modulate lipid and fatty acid metabolism to sustain proliferation. The role of adipocytes in cancer treatment efficacy remains, however, to be fully elucidated. We investigated whether diet-induced obesity (DIO) affects the efficacy of doxorubicin treatment in a breast tumor-bearing mouse model. Female C57BL6 mice were fed a high fat or low fat diet for the full duration of the study (12 weeks). After 8 weeks, mice were inoculated with E0771 triple-negative breast cancer cells in the fourth mammary gland to develop breast tumor allographs. Tumor-bearing mice received either vehicle (Hank's balanced salt solution) or doxorubicin (chemotherapy). Plasma inflammatory markers, tumor, and mammary adipose tissue fatty acid composition, as well as protein expression of lipid metabolism markers were determined. The high fat diet (HFD) attenuated the treatment efficacy of doxorubicin. Both leptin and resistin concentrations were significantly increased in the HFD group treated with doxorubicin. Suppressed lipogenesis (decreased stearoyl CoA-desaturase-1) and lipolysis (decreased hormone-sensitive lipase) were observed in mammary adipose tissue of the DIO animals, whereas increased expression was observed in the tumor tissue of doxorubicin treated HFD mice. Obesogenic conditions induced altered tissue fatty acid (FA) compositions, which reduced doxorubicin's treatment efficacy. In mammary adipose tissue breast cancer cells suppressed the storage of FAs, thereby increasing the availability of free FAs and favored inflammation under obesogenic conditions.

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“…They play roles in 514 local (intracellular) (Nishizuka 1995) and long-distance (hormone) cell signaling (Xavier et 515 al. 2016), have both pro-and anti-inflammatory properties (Bennett and Gilroy 2016), and 516 are the major components of cell membranes, where their composition influences cell 517 membrane function (Zalba and Hagen 2017). Bacterial membrane lipid content varies by 518 species (López-Lara and Geiger 2016), and may indicate bacterial physiological status 519 (Darveau et al 2004), while pathogenesis of the periodontal disease-associated oral 520…”

Section: 6 Differentially Abundant Metabolites In Ancient and Modernmentioning

confidence: 99%

The dental calculus metabolome in modern and historic samples

Velsko

Overmyer

Speller

et al. 2017

Preprint

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IntroductionDental calculus is a mineralized microbial dental plaque biofilm that forms throughout life by precipitation of salivary calcium salts. Successive cycles of dental plaque growth and calcification make it an unusually well-preserved, long-term record of host-microbial interaction in the archaeological record. Recent studies have confirmed the survival of authentic ancient DNA and proteins within historic and prehistoric dental calculus, making it a promising substrate for investigating oral microbiome evolution via direct measurement and comparison of modern and ancient specimens.ObjectiveWe present the first comprehensive characterization of the human dental calculus metabolome using a multi-platform approach.MethodsUltra performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS) quantified 285 metabolites in modern and historic (200 years old) dental calculus, including metabolites of drug and dietary origin. A subset of historic samples was additionally analyzed by high-resolution gas chromatography-MS (GC-MS) and UPLC- MS/MS for further characterization of polar metabolites and lipids, respectively. Metabolite profiles of modern and historic calculus were compared to identify patterns of persistence and loss.ResultsDipeptides, free amino acids, free nucleotides, and carbohydrates substantially decrease in abundance and ubiquity in archaeological samples, with some exceptions. Lipids generally persist, and saturated and mono-unsaturated medium and long chain fatty acids appear to be well-preserved, while metabolic derivatives related to oxidation and chemical degradation are found at higher levels in archaeological dental calculus than fresh samples.ConclusionsThe results of this study indicate that certain metabolite classes have higher potential for recovery over long time scales and may serve as appropriate targets for oral microbiome evolutionary studies.

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Cell membrane modulation as adjuvant in cancer therapy

Cited by 257 publications

References 105 publications

Functional link between plasma membrane spatiotemporal dynamics, cancer biology, and dietary membrane-altering agents

Functional link between plasma membrane spatiotemporal dynamics, cancer biology, and dietary membrane-altering agents

Decreased Efficacy of Doxorubicin Corresponds With Modifications in Lipid Metabolism Markers and Fatty Acid Profiles in Breast Tumors From Obese vs. Lean Mice

The dental calculus metabolome in modern and historic samples

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