The covert symphony: cellular and molecular accomplices in breast cancer metastasis

Si, Hongjiang; Esquivel, Mercedes; Mendoza, Erika Mendoza; Roarty, Kevin

doi:10.3389/fcell.2023.1221784

Front. Cell Dev. Biol.

2023

DOI: 10.3389/fcell.2023.1221784

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The covert symphony: cellular and molecular accomplices in breast cancer metastasis

Hongjiang Si

Mercedes Esquivel

Erika Mendoza Mendoza

et al.

Abstract: Breast cancer has emerged as the most commonly diagnosed cancer and primary cause of cancer-related deaths among women worldwide. Although significant progress has been made in targeting the primary tumor, the effectiveness of systemic treatments to prevent metastasis remains limited. Metastatic disease continues to be the predominant factor leading to fatality in the majority of breast cancer patients. The existence of a prolonged latency period between initial treatment and eventual recurrence in certain pat… Show more

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2024

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Cited by 2 publications

References 242 publications

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CD44 and RHAMM Are Microenvironmental Sensors with Dual Metastasis Promoter and Suppressor Functions

Tolg,

Hill,

Turley

2024

Advanced Biology

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The progression of primary tumors to metastases remains a significant roadblock to the treatment of most cancers. Emerging evidence has identified genes that specifically affect metastasis and are potential therapeutic targets for managing tumor progression. However, these genes can have dual tumor promoter and suppressor functions that are contextual in manifestation, and that complicate their development as targeted therapies. CD44 and RHAMM/HMMR are examples of multifunctional proteins that can either promote or suppress metastases, as demonstrated in experimental models. These two proteins can be viewed as microenvironmental sensors and this minireview addresses the known mechanistic underpinnings that may determine their metastasis suppressor versus promoter functions. Leveraging this mechanistic knowledge for CD44, RHAMM, and other multifunctional proteins is predicted to improve the precision of therapeutic targeting to achieve more effective management of metastasis.

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CD44 and RHAMM Are Microenvironmental Sensors with Dual Metastasis Promoter and Suppressor Functions

Tolg,

Hill,

Turley

2024

Advanced Biology

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Rare cell-based liquid biopsy for improved measurement of low-grade chronic inflammation

Schreier,

Budchart,

Borwornpinyo

et al. 2024

Front. Hematol.

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Objectives and designLow-grade inflammation is a hallmark of chronic diseases. More sensitive tools for chronic low-grade inflammation detection are needed and herein presented as a proof of concept. Heightened sensitivity to inflammation may be achieved by analyzing the compensation mechanisms of hematopoiesis in response to stress. The production of red blood cells and platelets, which are particularly vulnerable to physiological imbalances, are especially important in this context due to their high turnover rates. The compensatory mechanisms involve the production or release of rare immature blood cell types that herein serve as important biomarker targets.MethodsA cell-based liquid biopsy platform, using negative selection, was used to detect circulating rare cells in comprehension, allowing simultaneous analysis of an immature cell panel from one sample. The concentration ranges under physiological conditions for each cell marker were evaluated on a self-reported healthy control cohort and prospectively tested on three individuals undergoing various interventions: one afflicted with early-stage breast cancer, another with atherosclerosis in follow-up, and a third healthy individual with cardiovascular disease risk.ResultsThe approach effectively identified rare cellular abnormalities in asymptomatic individuals who exhibited no abnormalities in their complete blood counts. This condition was designated as silent inflammation (SI). SI was effective in monitoring response to intervention and predicting inflammation state.ConclusionsThe detection of SI proved valuable in aiding inflammation differential diagnosis and for monitoring the response to interventions in all three subjects.

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The covert symphony: cellular and molecular accomplices in breast cancer metastasis

Cited by 2 publications

References 242 publications

CD44 and RHAMM Are Microenvironmental Sensors with Dual Metastasis Promoter and Suppressor Functions

CD44 and RHAMM Are Microenvironmental Sensors with Dual Metastasis Promoter and Suppressor Functions

Rare cell-based liquid biopsy for improved measurement of low-grade chronic inflammation

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