期刊,International Journal of Radiation Biology 2022年98卷8期_国家学术搜索

期刊信息/Journal information

International Journal of Radiation Biology

Taylor & Francis

主办单位：Taylor & Francis

国际刊号：0955-3002

International Journal of Radiation Biology/Journal International Journal of Radiation BiologySCIISTP

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Factors and molecular mechanisms of radiation resistance in cancer cells

Alamilla-Presuel, Juan C.Burgos-Molina, Antonio M.Gonzalez-Vidal, AlejandroSendra-Portero, Francisco...

15页

查看更多>>摘要：Purpose The aim of this work is to review the published studies on radiation resistance mechanisms and molecular markers involved in different tumors. The revision has been focused in the last 5 years (2016-2021). Conclusions Radioresistance is a cause of concern as it causes failure of radiation therapy and subsequent tumor relapse. Combination chemotherapy and radiation therapy are clinically successful in treating many types of tumors. Despite continued improvements in cancer treatment, locoregional recurrence or metastatic spread continues to occur in a high proportion of patients after being treated with radiation therapy or combination treatments. There is strong evidence that cancer stem cells contribute to radiation resistance, contributing to treatment failure. The mechanisms of radiation resistance in different tumors are not fully understood. A better understanding of cancer stem cells and the associated signaling pathways that regulate radiation resistance will open up new strategies for treating cancer by radiation therapy. Radiation can damage malignant cells mainly by the induction of DNA double-strand breaks. However, in some tumors appear resistant cells that repopulate the tumor following therapy leading over time to the failure of the treatment. Native mechanisms and induced pathways are the cause of radiation resistance. It has been described that numerous molecular markers acting through numerous mechanisms of action involved in radiation resistance, such as apoptosis resistance, alterations of cell growth, proliferation and DNA repair, hypoxia, increase in invasiveness and migration capacity, cell cycle alterations, and expression of heat shock proteins, among others. Therefore, resistance to radiation is a multifactorial phenomenon that, in different cell types, occurs through different regulatory mechanisms in which different molecules intervene. Resistance can be acquired by altering different regulatory pathways in different tumors. The knowledge of radiation resistance markers could help in the classification and treatment of patients with more aggressive tumors.

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The preventive and therapeutic effect of repetitive transcranial magnetic stimulation on radiation-induced brain injury in mice

Liu, Li-YuanQin, Tong-ZhouGuo, LingRong-Rong, Huang...

14页

查看更多>>摘要：Purpose To clarify the preventive and therapeutic effects of repetitive transcranial magnetic stimulation (rTMS) on brain injury induced by X-ray cranial irradiation, preliminarily identify the mechanism and provide a novel clinical approach for the prevention and treatment of radiation-induced brain injury (RBI). Materials and methods Male C57BL/6 mice were randomly divided into the sham group, large fractionated dose (5 Gy x 4 d) group, large fractionated dose + rTMS (5 Gy x 4 d + rTMS) group, conventional fractionated dose (2 Gy x 10 d) group and conventional fractionated dose + rTMS (2 Gy x 10 d + rTMS) group. After cranial irradiation and rTMS, behavioral experiments, morphological staining and molecular biology experiments were performed. We further determined the mechanism of rTMS on the prevention and treatment of RBI, including changes in hippocampal neuronal apoptosis, neural stem cell (NSC) proliferation and differentiation, and neuronal synaptic plasticity. Results rTMS alleviated the negative effects of cranial radiation on the general health of mice and promoted their recovery. rTMS ameliorated the impairment of spatial learning and memory induced by cranial radiation, and this beneficial effect was more robust in the conventional fractionated dose group than the large fractionated dose group. Moreover, rTMS alleviated the alterations in hippocampal structure and neuronal death and had preventive and therapeutic effects against RBI. In addition, rTMS reduced hippocampal cell apoptosis, promoted NSC proliferation and differentiation in the hippocampus after cranial irradiation, and enhanced neuronal synaptic plasticity in the hippocampus. Subsequent studies showed that rTMS upregulated the expression of learning- and memory-related proteins. Conclusion rTMS could alleviate learning and memory impairment caused by RBI, and the preventive and therapeutic effects of rTMS were better for the conventional fraction radiation paradigms.

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An experimental approach to comprehend the influence of platelet rich growth factors on spermatogenesis

Demyashkin, Grigory A.Borovaya, Tatyana G.Andreeva, Yulia YuNedorubov, Andrey A....

14页

查看更多>>摘要：Leukocyte-poor platelet-rich plasma (LP-PRP) has a potential influence on tissue regeneration by stimulating the proliferation and differentiation of progenitor cells. The aim of this work is the morphological assessment of spermatogenesis under the influence of growth factors after electron irradiation. Materials and methods Experimental animals (n = 135) were divided into 5 groups: I - control (n = 10); II - 2IR (n = 35; 2 Gy); III - 2IR + LP-PRP + IGF-1 (n = 30); IV - 2IR + LP-PRP (n = 30); V - LP-PRP (n = 30). Results Electron irradiation reduces the number of germ cells in comparison with the control group. After injection of LP-PRP + rhIGF-1 significantly increased the number of germ cells, Sertoli and Leydig cells, the height of germinal epithelium, area and diameter of seminiferous tubules. Conclusion LP-PRP + rhIGF-1 has a normalizing effect on structural and functional disorders of the testis caused by electron irradiation.

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Investigation for anticancer activity of the newly synthesized p-Methoxyphenyl maleanilic acid and the diagnostic property of its Tc-99m-analogue

Farrag, Nourihan S.Khater, S., IHassan, Fatma S. M.Amin, Abeer M....

14页

查看更多>>摘要：Purpose The limitations of the current chemotherapeutics are the main rational to develop and/or explore new anticancer agents and radiolabeled analogues for cancer early diagnosis. Materials and methods The newly synthesized p-methoxyphenyl maleanilic acid (MPMA) was prepared, characterized and investigated for its anticancer activity. MPMA screened in-vitro against human hepatocellular carcinoma (HepG-2), human colon carcinoma (HCT-116) and human breast carcinoma (MCF-7) cell lines. Furthermore, the in-vivo screening was performed by radiolabeling of MPMA with technetium-99m (Tc-99m) and investigating its biological distribution in normal mice and solid tumor models. Moreover, MPMA and its radiolabeled analogue were docked to Y220C and Y220S mutants of p53 (p53(Y220C) and p53(Y220S)) in an effort to confirm their affinity to cancer as well as to investigate, virtually, the mechanism of action of MPMA. Results The results revealed significant potency of MPMA against HepG-2 cell line (IC50 = 56.2 +/- 1.5 mu g/mL) if compared to HCT-116 (IC50 = 89.9 +/- 1.8 mu g/mL) and MCF-7 (IC50 = 104 +/- 2.7 mu g/mL) cell lines. The radiolabeling yield was optimized to be 90.2 +/- 2.1%. The radiolabeled MPMA showed a good localization in the site of solid tumor (15.1 +/- 1.6%ID/g) at 2 h post intravenous administration to the tumor bearing mice. Conclusions Collectively, the findings confirmed the potential anticancer activity of MPMA and the possible use of Tc-99m-MPMA for cancer diagnosis and monitoring.

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Preparation and preliminary evaluation study of [I-131]iodocolchicine-gallic-AuNPs: a potential scintigraphic agent for inflammation detection

Essa, Basma M.Selim, Adli A.El-Kawy, O. A.Abdelaziz, Gamal...

8页

查看更多>>摘要：Background Nanomedicine offers great potential for scintigraphic diagnostic imaging with lower risk and higher quality compared to other traditional techniques. Objectives This work aimed to develop and evaluate gold nanoparticles combined with gallic acid (gallic-AuNPs) and [I-131]iodocolchicine as a scintigraphic probe for inflammation. Methods [I-131]iodocolchicine-gallic-AuNPs were synthesized via chemical reduction method where gallic acid was used as reducing agent and [I-131]iodocolchicine was used as stabilizing agent. Then a characteristic profile for the synthesized nano-platform was performed including size analysis, zeta potential, radiochemical yield and in-vivo biodistribution in inflammation bearing mice. Results and Conclusion This platform was successfully synthesized with good stability, appropriate particle size (10 nm diameter for AuNPs), and high radiochemical purity for [I-131]iodocolchicine (96.79%). The in-vivo study indicated that [I-131]iodocolchicine-gallic-AuNPs accumulated with a high target to non-target ratio in intravenous injection and high retention value in intra-inflammation injection in inflammation model. The obtained data supported the usefulness of the new platform ([I-131]iodocolchicine-gallic-AuNPs) as a tracer for the detection and localization of inflammation.

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Radiation-induced effects on bone marrow of bank voles inhabiting the Chornobyl exclusion zone

Lypska, AllaRiabchenko, NataliaRodionova, NataliaBurdo, Olena...

10页

查看更多>>摘要：Purpose To investigate the effects of chronic exposure to low-dose radiation on bone marrow (BM) hematopoiesis of bank voles inhabiting the radioactively contaminated territory of the Chornobyl exclusion zone. Materials and methods Animals were collected within the highly radioactive area of the so-called Red Forest located close to the destroyed 4th reactor of the Chornobyl Nuclear Power Plant. Radioecological investigations included evaluation of radiocontamination of soil samples by Sr-90 and Cs-137, levels of incorporated radionuclides in animals' bodies and organs, as well as the absorbed dose rates. The study of peripheral blood and BM parameters combined with cytogenetic analysis of BM micronucleated polychromatic erythrocytes (MNPCEs) and standard metaphase test was carried out. Results The blood system of the exposed animals manifested significant changes in peripheral blood parameters (anemia and leucocyte formula left shift), ineffective differentiation, and maturation of BM cells, particularly relevant to the erythroid and granulocyte pools. Increased yields of BM MNPCEs and chromosomal aberrations, including dicentrics (dics) and Robertsonian fusion-like configurations (Rbts), were revealed. Conclusions Observed disturbances in the BM and peripheral blood suggest functional instability and inefficient compensatory and recovery reactions of the blood system of the bank voles from the contaminated areas of the Chornobyl exclusion zone. We assume that they are the consequences both of direct radiation exposure and hereditary pathological changes that have formed in a number of generations inhabiting radioactively contaminated areas.

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Induced variations by gamma radiation and EMS on the agronomic traits, essential oil yield with its quality and their exploitation in Java citronella (Cymbopogon winterianus Jowitt)

Munda, SunitaBegum, TwahiraGogoi, AnkitaPandey, Sudin Kr...

12页

查看更多>>摘要：Purpose The slips of Cymbopogon winterianus (Java citronella) are used to propagate this industrially important crop. It does not have a mating system that allows it to create new variability or develop superior progenies, which could be addressed by using induced mutation caused by physical or chemical agents. Physical treatments, rather than chemical treatments, are believed to be the most incredible alternative for mutation breeding. As a result, this study aims to assess the effects of gamma radiation and EMS treatment on the development of better C. winterianus progenies. Materials and methods The three superior lines, i.e. JC-62 (IC-0627007), JC-55 (IC-0627000), and JC-71 (IC-0627018) based on high herbage, essential oil yield and citronellal content were selected through clonal selection during three-year evaluation. These were then irradiated with Co-60 gamma rays (50 Gy, 100 Gy, 150 Gy, 200 Gy, 250 Gy, and 300 Gy) and treated with EMS dose (0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9 and 1%) separately. Ten plants of each dose were mutated and planted in the experimental field to obtain the MV2 progenies. After 4 months, the plants were harvested, and the slips were prepared and planted to get the MV3 and subsequently MV4 progenies. All morphological and essential oil data have been recorded and analyzed statistically. The essential oil was extracted through the Clevenger apparatus for all the progenies, followed by GC and GC-MS analysis. Results The morpho-chemical study of the 112 healthy mutants has led to the identification of six superior progenies in MV4 progenies, M17, M63, M77, M179, M233, and M392. In terms of the economic yield, it was observed that mutant M77 treated with 0.20% EMS dose increased the herbage yield and citronellal content tremendously. In contrast, the progeny M17 irradiated with gamma-100Gy increased essential oil yield from 1.32% to 1.50%. The EMS treatment at 0.10% and 0.20% doses showed an increasing trend in plant height, leaf length, tillers/bush, leaves/bush, herbage yield, and citronellal content compared to the base variety. The LD50 value of C. winterianus for gamma radiation and EMS treatment was averaged at 173 Gy and 0.72%, respectively. Conclusion In C. winterianus, both gamma rays and EMS treatment successfully created superior progenies with desired characteristics. The 0.20 percent EMS treatment significantly improved economic features, including herbage yield and citronellal content. Simultaneously, gamma radiation at 100 Gy produced the highest essential oil yield, which is a highly desirable characteristic in C. winterianus breeding.

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Radiation health hazard and risks assessment among greenhouse farmers in Egypt, seasonal study

Abd El-Zaher, Mohamed

9页

查看更多>>摘要：Objectives Greenhouses have been rapidly developing in Egypt in the recent years so as to overcome the problem of water shortage required for agriculture because agriculture in protected houses provides about 20-40% of the water consumption from agriculture in open lands. Greenhouses are widely used to cultivate different kinds of plants. Greenhouses are considered spacious, enclosed areas, in close contact with airtight and soil. They have been the main radon source for a long time. Radon and its progeny are released and trapped in the vacant space of greenhouses, causing health hazards for the farmers who work in them. Taking this into consideration, seasonal radon concentration levels have been monitored and measured in 8 greenhouses located at the city of Alexandria and Rosetta, Egypt. Materials and methods Passive closed-and-open can techniques are mainly used to calculate these concentrations. Each can has an attached CR-39 polymeric nuclear track detector as a detector material. For a period of 1 year inside the chosen greenhouses, the dosimeter has been exposed to the local for four seasons, 3 months each. Results The average annual radon concentration in those greenhouses varies between the lowest radon concentration value of 310 +/- 86 Bqm(-3) in the glass greenhouse in Alexandria, and the highest concentration value of 543 +/- 88 Bqm(-3) in the plastic greenhouses in Rosetta, with a total average annual value of 476 +/- 68 Bqm(-3). A remarkable variation in the seasonal radon concentrations in the greenhouses is observed. Also, in the research at hand, the radon radiation dose received by a farmer working in the greenhouses is calculated according to the ICRP. The occupants' greenhouse exposure rate varies from 1.38 mJ h m(-3) (0.39 WLM) in the plastic greenhouses to 2.42 mJ h m(-3) (0.683 WLM) in the glass ones, with an average value of 1.68 mJ h m(-3) (0.55 WLM) during that year. The workers' estimated effective dose per annum ranges between 1.94 mSv and 3.39 mSv with an average dose of 2.73 mSv. Conclusion In all the examined greenhouses in the Egyptian cities of Alexandria and Rosetta, the estimated effective dose per year is in the lower limit range of the action level (3-10 mSv) recommended for greenhouse workers by the ICRP, and it does not exceed the ICRP's upper limit. If the farmers work for a long number of years in the greenhouses, the occupational exposure to radiation doses due to radon concentration must be taken into consideration.

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Professor Ludwik Dobrzynski 1941-2022 OBITUARY

Socol, YehoshuaFeinendegen, LudwigFornalski, Krzysztof W.Janiak, Marek...

2页

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