MR evaluation of response to targeted treatment in cancer cells

Podo, Franca; Canevari, Silvana; Canese, Rossella; Pisanu, Maria Elena; Ricci, Alessandro; Iorio, Egidio

doi:10.1002/nbm.1658

Cited by 61 publications

(93 citation statements)

References 227 publications

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“…The search for biomarkers to detect cancer and to non-invasively monitor the response to treatment has led to several clinical studies evaluating the non-invasive detection of tCho for these objectives. Similar to studies in cancer cells 10 , human tumour xenograft models 10 and excised tumour tissue 11,12 , clinical studies have confirmed the activation of choline metabolism in human tumours in vivo 10,13 .…”

supporting

confidence: 61%

Choline metabolism in malignant transformation

2011

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Abnormal choline metabolism is emerging as a metabolic hallmark that is associated with oncogenesis and tumour progression. Following transformation, the modulation of enzymes that control anabolic and catabolic pathways causes increased levels of choline-containing precursors and breakdown products of membrane phospholipids. These increased levels are associated with proliferation, and recent studies emphasize the complex reciprocal interactions between oncogenic signalling and choline metabolism. Because choline-containing compounds are detected by non-invasive magnetic resonance spectroscopy (MRS), increased levels of these compounds provide a non-invasive biomarker of transformation, staging and response to therapy. Furthermore, enzymes of choline metabolism, such as choline kinase, present novel targets for image-guided cancer therapy.

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supporting

confidence: 61%

Choline metabolism in malignant transformation

2011

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“…These methods include conversion of PtdCho to free choline and phosphatidic acid (PA) by phospholipase D (PLD), and the coordinated activity of phospholipase A 2 (PLA 2 ), lysophospholipase (LPL) and glycerophospholipase:phosphodiesterase (GPC:PDE) to render free choline. These enzymes have been found to be differentially expressed in some but not all cancers, and much work is still required to fully elucidate their involvement in PC production [27,28]. A number of mitogenic second messengers are released as byproducts of PtdCho cleavage (Fig.…”

Section: Choline Metabolismmentioning

confidence: 99%

Choline kinase alpha—Putting the ChoK-hold on tumor metabolism

Arlauckas

Popov

Delikatny

2016

Progress in Lipid Research

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It is well established that lipid metabolism is drastically altered during tumor development and response to therapy. Choline kinase alpha (ChoKα) is a key mediator of these changes, as it represents the first committed step in the Kennedy pathway of phosphatidylcholine biosynthesis and ChoKα expression is upregulated in many human cancers. ChoKα activity is associated with drug resistant, metastatic, and malignant phenotypes, and represents a robust biomarker and therapeutic target in cancer. Effective ChoKα inhibitors have been developed and have recently entered clinical trials. ChoKα's clinical relevance was, until recently, attributed solely to its production of second messenger intermediates of phospholipid synthesis. The recent discovery of a non-catalytic scaffolding function of ChoKα may link growth receptor signaling to lipid biogenesis and requires a reinterpretation of the design and validation of ChoKα inhibitors. Advances in positron emission tomography, magnetic resonance spectroscopy, and optical imaging methods now allow for a comprehensive understanding of ChoKα expression and activity in vivo. We will review the current understanding of ChoKα metabolism, its role in tumor biology and the development and validation of targeted therapies and companion diagnostics for this important regulatory enzyme. This comes at a critical time as ChoKα-targeting programs receive more clinical interest.

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“…Phosphatidylcholine (PtdCho), the most abundant phospholipid in eukaryotic cell membranes, contributes to proliferative growth and programed cell death (4). High levels of cellular phosphocholine (PC) and total choline-containing compounds [tCho: the sum of Cho, PC, and glycerophosphocholine (GPC)] have been consistently observed in cancer cells and tumor tissue and are closely related to malignant transformation, invasion, and metastasis (5–12). …”

Section: Introductionmentioning

confidence: 99%

The Tumor Microenvironment Modulates Choline and Lipid Metabolism

et al. 2016

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An increase of cellular phosphocholine (PC) and total choline (tCho)-containing compounds as well as alterations in lipids have been consistently observed in cancer cells and tissue. These metabolic changes are closely related to malignant transformation, invasion, and metastasis. The study of cancer cells in culture plays an important role in understanding mechanisms leading to altered choline (Cho) and lipid metabolism in cancer, as it provides a carefully controlled environment. However, a solid tumor is a complex system with a unique tumor microenvironment frequently containing hypoxic and acidic regions and areas of nutrient deprivation and necrosis. Cancer cell–stromal cell interactions and the extracellular matrix may also alter Cho and lipid metabolism. Human tumor xenograft models in mice are useful to mimic the growth of human cancers and provide insights into the influence of in vivo conditions on metabolism. Here, we have compared metabolites, obtained with high resolution 1H MRS of extracts from human breast and prostate cancer cells in a 2-dimensional (2D) monolayer culture and from solid tumor xenografts derived from these cells, as well as the protein expression of enzymes that regulate Cho and lipid metabolism. Our data demonstrate significant differences in Cho and lipid metabolism and protein expression patterns between human breast and prostate cancer cells in culture and in tumors derived from these cells. These data highlight the influence of the tumor microenvironment on Cho and lipid metabolism.

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MR evaluation of response to targeted treatment in cancer cells

Cited by 61 publications

References 227 publications

Choline metabolism in malignant transformation

Choline metabolism in malignant transformation

Choline kinase alpha—Putting the ChoK-hold on tumor metabolism

The Tumor Microenvironment Modulates Choline and Lipid Metabolism

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