We are analyzing https://link.springer.com/article/10.1007/s00018-023-05054-6.

Title:
Biophysical control of plasticity and patterning in regeneration and cancer | Cellular and Molecular Life Sciences
Description:
Cells and tissues display a remarkable range of plasticity and tissue-patterning activities that are emergent of complex signaling dynamics within their microenvironments. These properties, which when operating normally guide embryogenesis and regeneration, become highly disordered in diseases such as cancer. While morphogens and other molecular factors help determine the shapes of tissues and their patterned cellular organization, the parallel contributions of biophysical control mechanisms must be considered to accurately predict and model important processes such as growth, maturation, injury, repair, and senescence. We now know that mechanical, optical, electric, and electromagnetic signals are integral to cellular plasticity and tissue patterning. Because biophysical modalities underly interactions between cells and their extracellular matrices, including cell cycle, metabolism, migration, and differentiation, their applications as tuning dials for regenerative and anti-cancer therapies are being rapidly exploited. Despite this, the importance of cellular communication through biophysical signaling remains disproportionately underrepresented in the literature. Here, we provide a review of biophysical signaling modalities and known mechanisms that initiate, modulate, or inhibit plasticity and tissue patterning in models of regeneration and cancer. We also discuss current approaches in biomedical engineering that harness biophysical control mechanisms to model, characterize, diagnose, and treat disease states.
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Keywords {🔍}

pubmed, google, scholar, article, cas, cells, cancer, cell, central, regeneration, tissue, plasticity, fields, tumor, ecm, biophysical, tissues, channels, stem, patterning, signaling, growth, including, biol, electric, differentiation, effects, sci, cellular, ion, stiffness, light, signals, magnetic, potential, mechanisms, microenvironment, bioelectric, wound, migration, expression, healing, control, mechanical, field, photobiomodulation, molecular, proliferation, vitro, wang,

Topics {✒️}

bone-marrow-derived progenitor cells n-methyl-d-aspartate receptors akt/hypoxia inducible factor-1α article download pdf time-varying magnetic fields long-term structural stability voltage-gated calcium channel silver-wired electrodes coupled mechanostimulus-driven cancer therapeutics voltage-gated proton channel population-based case–control study mitogen-activated protein kinase enhances gap-junction communication voltage-sensitive ion channels low-level laser irradiation g-protein coupled receptors methicillin-resistant staphylococcus aureus low-level laser light wavelength-specific light exposures voltage-gated calcium channels dielectrophoresis based-cell patterning phototherapy-induced antitumor immunity artificial sunlight irradiation ultra-weak photon emission flow-induced shear stress central nervous system low-level light therapy oncogene-induced tumorigenesis dmba-induced mammary carcinogenesis light-gated ion channels mechanoresponsive epha2/lyn complex long-range tissue polarity el-hayek yh transforming growth factor-β1 ion channel-dependent mechanisms nanosecond-pulsed electric fields gj-mediated depolarizing waves microtubule-organizing center location cell–extracellular matrix mechanotransduction meso-scale tissue polarity send long-distance signals potential light-based therapies α1β1 integrin-dependent process low-intensity currents delivered long-range tissue dynamics endogenous em-related signals calcium-activated potassium channels cell–cell interactions present gap-junction-mediated ecm ligand type

Questions {❓}

Bhargava A, Saha S (2019) T-Type voltage gated calcium channels: a target in breast cancer?
Can electromagnetic factors influence cancer?
Cunningham JE, Jurj AL, Oman L, Stonerock AE, Nitcheva DK, Cupples TE (2006) Is risk of axillary lymph node metastasis associated with proximity of breast cancer to the skin?
Hamblin MR, Nelson ST, Strahan JR (2018) Photobiomodulation and cancer: what is the truth?
Havas M (2017) When theory and observation collide: can non-ionizing radiation cause cancer?
How do multicellular systems determine which individual cells should proliferate, specialize, or die in service of the group?
Moro C, Liebert A, Hamilton C, Pasqual N, Jeffery G, Stone J, Mitrofanis J (2022) The code of light: do neurons generate light to communicate and repair?
Novel questions can now be addressed: Are long-range bioelectric signals impacted by the polarization of ECM polymers?
Pahor M, Guralnik JM, Salive ME, Corti MC, Carbonin P, Havlik RJ (1996) Do calcium channel blockers increase the risk of cancer?
Pomerantz JH, Blau HM (2013) Tumor suppressors: enhancers or suppressors of regeneration?
Zarkeshian P, Kumar S, Tuszynski J, Barclay P, Simon C (2017) Are there optical communication channels in the brain?

Schema {🗺️}

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         description:Cells and tissues display a remarkable range of plasticity and tissue-patterning activities that are emergent of complex signaling dynamics within their microenvironments. These properties, which when operating normally guide embryogenesis and regeneration, become highly disordered in diseases such as cancer. While morphogens and other molecular factors help determine the shapes of tissues and their patterned cellular organization, the parallel contributions of biophysical control mechanisms must be considered to accurately predict and model important processes such as growth, maturation, injury, repair, and senescence. We now know that mechanical, optical, electric, and electromagnetic signals are integral to cellular plasticity and tissue patterning. Because biophysical modalities underly interactions between cells and their extracellular matrices, including cell cycle, metabolism, migration, and differentiation, their applications as tuning dials for regenerative and anti-cancer therapies are being rapidly exploited. Despite this, the importance of cellular communication through biophysical signaling remains disproportionately underrepresented in the literature. Here, we provide a review of biophysical signaling modalities and known mechanisms that initiate, modulate, or inhibit plasticity and tissue patterning in models of regeneration and cancer. We also discuss current approaches in biomedical engineering that harness biophysical control mechanisms to model, characterize, diagnose, and treat disease states.
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