Metabolic Constrains Rule Metastasis Progression

Roda, Niccolò; Gambino, Valentina

doi:10.3390/cells9092081

Cited by 15 publications

(12 citation statements)

References 296 publications

(338 reference statements)

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“…The “cell-of-origin” then undergoes clonal expansion, a process that is accompanied by the acquisition of further genetic and phenotypic traits, thereby generating a state of Intra-Tumor Heterogeneity (ITH; [ 118 ]). As a consequence, breast tumors, though clonal in origin, become polyclonal systems [ 119 , 120 ], whereby different clones (i.e., populations of cells that originate from a common ancestor) differ in terms of their genomic and phenotypic profiles [ 121 , 122 , 123 ].…”

Section: Bc Intra-tumor Heterogeneity and Metastasismentioning

confidence: 99%

“…The deregulated growth of primary breast tumors is associated with the exhaustion of the local nutrient microenvironment, which leads to progressive nutrient deprivation, the accumulation of waste products and metabolic stress [ 123 ]. A pivotal study on transformed mammary cells revealed that glutamine deprivation strongly fosters the expression of stress-response genes (e.g., ATF4, DDIT3 and XBP1), including inflammatory mediators (e.g., KLF4, CCL2, NF-κB1 and IL20) and it increases the migratory phenotype of tumor cells [ 188 ].…”

Section: Adaptive Responses In Bc Metastasismentioning

confidence: 99%

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Beyond Genetics: Metastasis as an Adaptive Response in Breast Cancer

Ruscitto

Roda

Priami

et al. 2022

IJMS

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Metastatic disease represents the primary cause of breast cancer (BC) mortality, yet it is still one of the most enigmatic processes in the biology of this tumor. Metastatic progression includes distinct phases: invasion, intravasation, hematogenous dissemination, extravasation and seeding at distant sites, micro-metastasis formation and metastatic outgrowth. Whole-genome sequencing analyses of primary BC and metastases revealed that BC metastatization is a non-genetically selected trait, rather the result of transcriptional and metabolic adaptation to the unfavorable microenvironmental conditions which cancer cells are exposed to (e.g., hypoxia, low nutrients, endoplasmic reticulum stress and chemotherapy administration). In this regard, the latest multi-omics analyses unveiled intra-tumor phenotypic heterogeneity, which determines the polyclonal nature of breast tumors and constitutes a challenge for clinicians, correlating with patient poor prognosis. The present work reviews BC classification and epidemiology, focusing on the impact of metastatic disease on patient prognosis and survival, while describing general principles and current in vitro/in vivo models of the BC metastatic cascade. The authors address here both genetic and phenotypic intrinsic heterogeneity of breast tumors, reporting the latest studies that support the role of the latter in metastatic spreading. Finally, the review illustrates the mechanisms underlying adaptive stress responses during BC metastatic progression.

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Section: Bc Intra-tumor Heterogeneity and Metastasismentioning

confidence: 99%

Section: Adaptive Responses In Bc Metastasismentioning

confidence: 99%

Beyond Genetics: Metastasis as an Adaptive Response in Breast Cancer

Ruscitto

Roda

Priami

et al. 2022

IJMS

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“…Metastatic progression is based on the ability of cancer cells to acquire an adaptive phenotype disseminating to distant organ sites and evading the immune system. In this context, two comprehensive reviews, proposed by Roda and colleagues [37] and by Benzarti and colleagues [38], examined complementary features of this critical matter, pointing out the ability of cancer cells to gain a bioenergetic shift and discussing the role of metabolic reprogramming in eliciting the metastatization process.…”

Section: Synopsismentioning

confidence: 99%

Cancer Metabolism as a New Real Target in Tumor Therapy

Chiaradonna

Scumaci

2021

Cells

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“…Tumorigenesis represents a dynamic process that induces normal cells to lose their own specific identity and to acquire a series of malignant traits, including deregulated proliferation, evasion of apoptosis and immunosurveillance, and abnormal metabolism [1][2][3]. Notably, this process is driven by two main factors, namely, tumor-specific mutational burden, on one hand, and the continuous interaction of cancer cells with the surrounding stroma, on the other hand [4,5].…”

Section: Introduction: the Heterogeneous Microenvironment Of Tumorsmentioning

confidence: 99%

Blood Vessels and Peripheral Nerves as Key Players in Cancer Progression and Therapy Resistance

Roda

Blandano

Pelicci

2021

Cancers

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Cancer cells continuously interact with the tumor microenvironment (TME), a heterogeneous milieu that surrounds the tumor mass and impinges on its phenotype. Among the components of the TME, blood vessels and peripheral nerves have been extensively studied in recent years for their prominent role in tumor development from tumor initiation. Cancer cells were shown to actively promote their own vascularization and innervation through the processes of angiogenesis and axonogenesis. Indeed, sprouting vessels and axons deliver several factors needed by cancer cells to survive and proliferate, including nutrients, oxygen, and growth signals, to the expanding tumor mass. Nerves and vessels are also fundamental for the process of metastatic spreading, as they provide both the pro-metastatic signals to the tumor and the scaffold through which cancer cells can reach distant organs. Not surprisingly, continuously growing attention is devoted to the development of therapies specifically targeting these structures, with promising initial results. In this review, we summarize the latest evidence that supports the importance of blood vessels and peripheral nerves in cancer pathogenesis, therapy resistance, and innovative treatments.

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Metabolic Constrains Rule Metastasis Progression

Cited by 15 publications

References 296 publications

Beyond Genetics: Metastasis as an Adaptive Response in Breast Cancer

Beyond Genetics: Metastasis as an Adaptive Response in Breast Cancer

Cancer Metabolism as a New Real Target in Tumor Therapy

Blood Vessels and Peripheral Nerves as Key Players in Cancer Progression and Therapy Resistance

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