Bian Yanes scite author profile

Bian Yanes

4Publications

47Citation Statements Received

338Citation Statements Given

How they've been cited

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226

302

Affiliations

Wellcome Centre for Cell-Matrix Research, University of Sheffield, University of Manchester

Publications

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Desmosome dualism – most of the junction is stable, but a plakophilin moiety is persistently dynamic

Fülle

Huppert

Liebl

et al. 2021

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Desmosomes, strong cell-cell junctions of epithelia and cardiac muscle, link intermediate filaments to cell membranes and mechanically integrate cells across tissues, dissipating mechanical stress. They comprise five major protein classes – desmocollins and desmogleins (the desmosomal cadherins), plakoglobin, plakophilins and desmoplakin - whose individual contribution to the structure and turnover of desmosomes is poorly understood. Using live-cell imaging together with FRAP and FLAP we show that desmosomes consist of two contrasting protein moieties or modules: a very stable moiety of desmosomal cadherins, desmoplakin and plakoglobin, and a highly mobile plakophilin (Pkp2a). As desmosomes mature from calcium-dependence to calcium-independent hyper-adhesion, their stability increases, but Pkp2a remains highly mobile. We show that desmosome down-regulation during growth-factor-induced cell scattering proceeds by internalisation of whole desmosomes, which still retain a stable moiety and highly mobile Pkp2a. This molecular mobility of Pkp2a suggests a transient and probably regulatory role for Pkp2a in desmosomes.

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The Interplay between Cell-Extracellular Matrix Interaction and Mitochondria Dynamics in Cancer

Yanes

Rainero

2022

Cancers

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The tumor microenvironment, in particular the extracellular matrix (ECM), plays a pivotal role in controlling tumor initiation and progression. In particular, the interaction between cancer cells and the ECM promotes cancer cell growth and invasion, leading to the formation of distant metastasis. Alterations in cancer cell metabolism is a key hallmark of cancer, which is often associated with alterations in mitochondrial dynamics. Recent research highlighted that, changes in mitochondrial dynamics are associated with cancer migration and metastasis—these has been extensively reviewed elsewhere. However, less is known about the interplay between the extracellular matrix and mitochondria functions. In this review, we will highlight how ECM remodeling associated with tumorigenesis contribute to the regulation of mitochondrial function, ultimately promoting cancer cell metabolic plasticity, able to fuel cancer invasion and metastasis.

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The extracellular matrix supports cancer cell growth under amino acid starvation by promoting tyrosine catabolism

Nazemi

Yanes

Martinez

et al. 2021

Preprint

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Breast cancer tumours are embedded in a collagen I rich extracellular matrix (ECM) network where nutrients are scarce due to limited blood flow and elevated tumour growth. Metabolic adaptation is required for breast cancer cells to endure these conditions. Here, we demonstrated that the presence of ECM supported the growth of invasive breast cancer cells, but not non-transformed mammary epithelial cells, under amino acid starvation, through a mechanism that required ECM uptake. Importantly, we showed that this behaviour was acquired during carcinoma progression. ECM internalisation, followed by lysosomal degradation, contributed to the upregulation of the intracellular levels of several amino acids, including tyrosine and phenylalanine. Finally, we showed that cells on ECM had elevated tyrosine catabolism, leading to elevated fumarate levels, potentially feeding into the tricarboxylic acid cycle. Interestingly, this pathway was required for ECM-dependent cell growth under amino acid starvation, as the knockdown of HPDL, the third enzyme of the pathway, opposed cell growth on ECM without affecting cell proliferation on plastic. Collectively, our results highlight that the ECM surrounding breast cancer tumours represents an alternative source of nutrients to support cancer cell growth, by regulating phenylalanine and tyrosine metabolism.

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Desmosomal dualism: the core is stable while plakophilin is dynamic

Huppert

Liebl

et al. 2021

Preprint

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Desmosomes, strong cell-cell junctions of epithelia and cardiac muscle, link intermediate filaments to cell membranes and mechanically integrate cells across tissues, dissipating mechanical stress. They comprise 5 major protein classes - desmocollins and desmogleins (the desmosomal cadherins), plakoglobin, plakophilins and desmoplakin - whose individual contribution to the structure and turnover of desmosomes is poorly understood. Using live-cell imaging together with FRAP and FLAP we show that desmosomes consist of two contrasting protein fractions or modules: a very stable desmosomal core of desmosomal cadherins and plakoglobin, and a highly mobile plakophilin. As desmosomes mature from calcium-dependence to calcium-independent hyper-adhesion, core stability increases, but Pkp2a remains highly mobile. Desmoplakin is initially mobile but stabilises with hyper-adhesion. We show that desmosome down-regulation during growth factor-induced cell scattering proceeds by internalisation of whole desmosomes, which still retain a stable core and highly mobile Pkp2a. This molecular mobility of Pkp2a suggests a transient and probably regulatory role for Pkp2a in the desmosome.

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Bian Yanes

Desmosome dualism – most of the junction is stable, but a plakophilin moiety is persistently dynamic

The Interplay between Cell-Extracellular Matrix Interaction and Mitochondria Dynamics in Cancer

The extracellular matrix supports cancer cell growth under amino acid starvation by promoting tyrosine catabolism

Desmosomal dualism: the core is stable while plakophilin is dynamic

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