Comparison of In Vivo Skin and In Vitro Blood Lymphocyte Models for the Prediction of Late Normal Tissue Responses in Breast Radiation Therapy Patients

Radiotherapy is involved in the treatment of many cancers, but damage induced to the surrounding normal tissue is often inevitable. Evidence suggests that the maintenance of homeostasis and regeneration of the normal tissue is driven by specific adult tissue stem/progenitor cells. These tasks involve the input from several signaling pathways. Irradiation also targets these stem/progenitor cells, triggering a cellular response aimed at achieving tissue regeneration. Here we discuss the currently used in vitro and in vivo models and the involved specific tissue stem/progenitor cell signaling pathways to study the response to irradiation. The combination of the use of complex in vitro models that offer high in vivo resemblance and lineage tracing models, which address organ complexity constitute potential tools for the study of the stem/progenitor cellular response post-irradiation. The Notch, Wnt, Hippo, Hedgehog, and autophagy signaling pathways have been found as crucial for driving stem/progenitor radiation-induced tissue regeneration. We review how these signaling pathways drive the response of solid tissue-specific stem/progenitor cells to radiotherapy and the used models to address this.

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Imaging the transmembrane and transendothelial sodium gradients in gliomas

Scientific Reports ◽

10.1038/s41598-021-85925-9 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Muhammad H. Khan ◽

John J. Walsh ◽

Jelena M. Mihailović ◽

Sandeep K. Mishra ◽

Daniel Coman ◽

...

Keyword(s):

Membrane Potential ◽

Magnetic Resonance ◽

Cell Membrane ◽

Normal Tissue ◽

Magnetic Resonance Spectroscopic Imaging ◽

Biological Factors ◽

High Sodium ◽

Intracellular Milieu

AbstractUnder normal conditions, high sodium (Na+) in extracellular (Na+e) and blood (Na+b) compartments and low Na+ in intracellular milieu (Na+i) produce strong transmembrane (ΔNa+mem) and weak transendothelial (ΔNa+end) gradients respectively, and these manifest the cell membrane potential (Vm) as well as blood–brain barrier (BBB) integrity. We developed a sodium (23Na) magnetic resonance spectroscopic imaging (MRSI) method using an intravenously-administered paramagnetic polyanionic agent to measure ΔNa+mem and ΔNa+end. In vitro 23Na-MRSI established that the 23Na signal is intensely shifted by the agent compared to other biological factors (e.g., pH and temperature). In vivo 23Na-MRSI showed Na+i remained unshifted and Na+b was more shifted than Na+e, and these together revealed weakened ΔNa+mem and enhanced ΔNa+end in rat gliomas (vs. normal tissue). Compared to normal tissue, RG2 and U87 tumors maintained weakened ΔNa+mem (i.e., depolarized Vm) implying an aggressive state for proliferation, whereas RG2 tumors displayed elevated ∆Na+end suggesting altered BBB integrity. We anticipate that 23Na-MRSI will allow biomedical explorations of perturbed Na+ homeostasis in vivo.

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Delta-6-desaturase inhibitor enhances radiation therapy in glioblastoma in vitro and in vivo

Cancer Management and Research ◽

10.2147/cmar.s185601 ◽

2018 ◽

Vol Volume 10 ◽

pp. 6779-6790 ◽

Cited By ~ 1

Author(s):

Jie Wang ◽

Huaxin Liang ◽

Meiyan Sun ◽

Lei Zhang ◽

Huijing Xu ◽

...

Keyword(s):

Radiation Therapy ◽

Delta 6 Desaturase

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Local Tumor Control and Normal Tissue Toxicity of Pulsed Low-Dose-Rate Radiation Therapy (PLRT) for Recurrent Lung Cancer: An In Vivo Study

International Journal of Radiation Oncology*Biology*Physics ◽

10.1016/j.ijrobp.2014.05.2278 ◽

2014 ◽

Vol 90 (1) ◽

pp. S788

Author(s):

P. Zhang ◽

B. Wang ◽

X. Chen ◽

D. Cvetkovic ◽

L. Chen ◽

...

Keyword(s):

Lung Cancer ◽

Radiation Therapy ◽

Normal Tissue ◽

Low Dose ◽

Local Tumor Control ◽

Tumor Control ◽

Local Tumor ◽

Low Dose Rate ◽

Normal Tissue Toxicity

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Synergistic anticancer activity of sorafenib, paclitaxel, and radiation therapy on anaplastic thyroid cancer in vitro and in vivo

Head & Neck ◽

10.1002/hed.26431 ◽

2020 ◽

Vol 42 (12) ◽

pp. 3678-3684

Author(s):

Soo Young Kim ◽

Seok‐Mo Kim ◽

Hojin Chang ◽

Hang‐Seok Chang ◽

Cheong Soo Park ◽

...

Keyword(s):

Radiation Therapy ◽

Thyroid Cancer ◽

Anticancer Activity ◽

Anaplastic Thyroid Cancer

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Mesoporous Silicon: Short and Long Term, In Vitro and In Vivo Correlations of Cellular and Tissue Responses to Mesoporous Silicon Nanovectors (Small 9-10/2013)

Small ◽

10.1002/smll.201370058 ◽

2013 ◽

Vol 9 (9-10) ◽

pp. 1721-1721

Author(s):

Jonathan O. Martinez ◽

Christian Boada ◽

Iman K. Yazdi ◽

Michael Evangelopoulos ◽

Brandon S. Brown ◽

...

Keyword(s):

Mesoporous Silicon ◽

Tissue Responses ◽

Short And Long Term

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A fluorescent residualizing label for studies on protein uptake and catabolism in vivo and in vitro

Biochemical Journal ◽

10.1042/bj2670155 ◽

1990 ◽

Vol 267 (1) ◽

pp. 155-162 ◽

Cited By ~ 15

Author(s):

J L Maxwell ◽

L Terracio ◽

T K Borg ◽

J W Baynes ◽

S R Thorpe

Keyword(s):

Half Life ◽

Normal Tissue ◽

Degradation Products ◽

Rat Serum ◽

Peripheral Tissues ◽

Protein Uptake ◽

Kinetics Of ◽

Rat Serum Albumin

Residualizing labels are tracers which remain in lysosomes after uptake and catabolism of the carrier protein and have been especially useful for studies on the sites of plasma protein degradation. Thus far these labels have contained radioactive reporters such as 3H or 125I. In the present paper we describe a fluorescent residualizing label, NN-dilactitol-N′-fluoresceinylethylenediamine (DLF). Modification of asialofetuin (ASF) or rat serum albumin (RSA) with DLF affected neither their normal kinetics of clearance from the rat circulation nor their normal tissue sites of uptake and degradation. After injection of DLF-ASF, fluorescent degradation products were recovered nearly quantitatively in liver and retained with a half-life of about 2 days. Fluorescent degradation products from DLF-RSA were recovered in skin and muscle, and were localized in fibroblasts by fluorescence microscopy. These results confirm previous studies with radioactive residualizing labels in which fibroblasts in peripheral tissues were identified as primary sites of albumin degradation. Fluorescent catabolites also accumulated in fibroblasts incubated with DLF-RSA in vitro, and residualized with a half-life of about 2 days. Overall, the data establish that DLF functions efficiently as a fluorescent residualizing label both in vivo and in vitro. The advantages of fluorescent, compared with radioactive, residualizing labels should make them valuable tools for studies on protein uptake and catabolism in biological systems.

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Comparison of the Effect of Two Hyaluronic Acid Preparations on Fibroblast and Endothelial Cell Functions Related to Angiogenesis

Cells ◽

10.3390/cells8121479 ◽

2019 ◽

Vol 8 (12) ◽

pp. 1479 ◽

Cited By ~ 3

Author(s):

Valerio Ciccone ◽

Marco Zazzetta ◽

Lucia Morbidelli

Keyword(s):

Hyaluronic Acid ◽

Inflammatory Infiltrate ◽

Dermal Fibroblasts ◽

Low Molecular Weight ◽

Aesthetic Medicine ◽

Cell Functions ◽

Tissue Responses ◽

Tissue Recovery

Hyaluronic acid (HA) is used in substitutive and aesthetic medicine with various applications. Ultrapure absorbable HA (Bioregen®) and a mix of reticulated and free low molecular weight HA (Regenyal Idea Bioexpander®) (both provided by Regenyal Laboratories Srl, San Benedetto del Tronto (AP), Italy) represent a reliable hydrating device and skin filler, useful for skin blemishes, lines and wrinkles, and lip widening, respectively. The commercial products are known for their safety, but data on the molecular, cellular, and tissue responses are lacking. We aimed to evaluate the bioavailability and the pro-angiogenic features of the products Bioregen® and Bioexpander® in vitro on cultured endothelial cells (ECs) and dermal fibroblasts in vivo when injected into experimental animals. When added to fibroblasts and ECs, Bioexpander® induced cell migration. The two HA preparations were well tolerated, while a transient proangiogenic behavior of Bioexpander®, when implanted subcutaneously in mice, was found. The neovascular response was evident in the first week with higher levels of VEGF and FGF-2 before undergoing regression. In conclusion, our data strengthen the safety of HA synthetic preparations both in vitro and in vivo. Even if a proangiogenic response is documented, it is modest and transient, leading to tissue recovery and absence of an inflammatory infiltrate.

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Evaluation of a Novel Boron-Containing α-d-Mannopyranoside for BNCT

Cells ◽

10.3390/cells9051277 ◽

2020 ◽

Vol 9 (5) ◽

pp. 1277 ◽

Cited By ~ 3

Author(s):

Takao Tsurubuchi ◽

Makoto Shirakawa ◽

Wataru Kurosawa ◽

Kayo Matsumoto ◽

Risa Ubagai ◽

...

Keyword(s):

Normal Tissue ◽

Cultured Cells ◽

Tumor Model ◽

Intracellular Distribution ◽

Inductively Coupled ◽

Inductively Coupled Mass Spectrometry ◽

Icp Ms ◽

High Concentrations

Boron neutron capture therapy (BNCT) is a unique anticancer technology that has demonstrated its efficacy in numerous phase I/II clinical trials with boronophenylalanine (BPA) and sodium borocaptate (BSH) used as 10B delivery agents. However, continuous drug administration at high concentrations is needed to maintain sufficient 10B concentration within tumors. To address the issue of 10B accumulation and retention in tumor tissue, we developed MMT1242, a novel boron-containing α-d-mannopyranoside. We evaluated the uptake, intracellular distribution, and retention of MMT1242 in cultured cells and analyzed biodistribution, tumor-to-normal tissue ratio and toxicity in vivo. Fluorescence imaging using nitrobenzoxadiazole (NBD)-labeled MMT1242 and inductively coupled mass spectrometry (ICP-MS) were performed. The effectiveness of BNCT using MMT1242 was assessed in animal irradiation studies at the Kyoto University Research Reactor. MMT1242 showed a high uptake and broad intracellular distribution in vitro, longer tumor retention compared to BSH and BPA, and adequate tumor-to-normal tissue accumulation ratio and low toxicity in vivo. A neutron irradiation study with MMT1242 in a subcutaneous murine tumor model revealed a significant tumor inhibiting effect if injected 24 h before irradiation. We therefore report that 10B-MMT1242 is a candidate for further clinical BNCT studies.

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Adipokines expression and epithelial cell polarity in normal and cancerous breast tissue

Carcinogenesis ◽

10.1093/carcin/bgaa060 ◽

2020 ◽

Vol 41 (10) ◽

pp. 1402-1408

Author(s):

Danila Coradini ◽

Simone Gambazza ◽

Saro Oriana ◽

Federico Ambrogi

Keyword(s):

Cell Polarity ◽

Protein Level ◽

Normal Tissue ◽

Functional Organization ◽

Epithelial Tissue ◽

Cancer Etiology ◽

In Vivo Models ◽

Glutamyl Transferase

Abstract Cell polarity is crucial for the correct structural and functional organization of epithelial tissue. Its disruption can lead to loss of the apicobasal polarity, alteration in the intracellular components, misregulation of the pathways involved in cell proliferation and cancer promotion. Very recent in vitro/in vivo findings demonstrated that obesity-associated alterations in tissue adipokines protein level negatively affect epithelial polarity. We performed an in silico study to investigate whether such alterations also occur in surgical samples. We aimed to explore the relationship among the expression of the genes coding for leptin (LEP), adiponectin (ADIPOQ), adipokine receptors (LEPR, ADIPOR1 and ADIPOR2), and a panel of polarity-associated genes in normal tissue from breast reduction mammoplasty, and a series of paired samples of histologically normal (HN) tissue and invasive cancer. Results indicated that, in normal tissue, the expression of adipokines and their receptors negatively correlated with that of the polarity-associated genes and GGT1, which codes for γ-glutamyl transferase (GGT) enzyme, a marker of cell distress and membrane disruption. This negative correlation progressively decreased in HN and cancerous tissue, and loss of correlation between ADIPOR2 and polarity-associated genes appeared the most noticeable alteration. Given the growing role of obesity in breast cancer etiology and the opposite action of leptin and adiponectin in epithelial tissue remodeling, ADIPOR2 loss could be addressed as a key mechanism leading to an unbalanced leptin stimulatory activity, subsequent cell polarity disruption and eventually tumor initiation, a finding that requires to be confirmed also at the protein level and with in vivo models.

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