Oncogenic bystander radiation effects in
            <i>Patched</i>
            heterozygous mouse cerebellum

Mancuso, Mariateresa; Pasquali, Emanuela; Leonardi, Simona; Tanori, Mirella; Rebessi, Simonetta; Majo, V. Di; Pazzaglia, Simonetta; Toni, Maria Pia; Pimpinella, M.; Covelli, Vincenzo; Saran, Anna

doi:10.1073/pnas.0804186105

Cited by 241 publications

(179 citation statements)

References 37 publications

(41 reference statements)

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“…In this setting, the sum of attenuated and scattered radiation to the cerebellum is 0.036 Gy (1.2% of the total dose, see Monte Carlo simulation in Supplementary Methods), having undetectable genetic/oncogenic effects in directly irradiated cerebellum (Mancuso et al, 2008). This ensures that we were studying the indirect effects of exposure, rather than the direct effects of photons passing the shields and/or deflected in the cap through irradiated tissues.…”

Section: Resultsmentioning

confidence: 99%

“…We recently reported tumor induction in an in vivo mouse bystander model (Mancuso et al, 2008), stressing the potential significance of bystander responses for human health. Identifying the signaling mechanisms by which non-targeted radiation effects may cause tumor development is critical mechanistically, and for assessment of cancer risks associated with medical, occupational and environmental radiation exposures.…”

Section: Introductionmentioning

confidence: 99%

“…In our laboratory, by use of 12-O-tetradecanoylphorbol-13-acetate, we were able to inhibit expression of connexin43 (Cx43), the major gap junction intercellular communication (GJIC) constituent in central nervous system (CNS), and to reduce long-range radiation damage to the mouse brain (Mancuso et al, 2008). Although this strongly suggested a role of GJIC in bystander signaling, 12-O-tetradecanoylphorbol-13-acetate is not a specific GJIC inhibitor and exerts numerous effects on cellular functions.…”

Section: Introductionmentioning

confidence: 99%

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Role of connexin43 and ATP in long-range bystander radiation damage and oncogenesis in vivo

et al. 2011

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Ionizing radiation is a genotoxic agent and human carcinogen. Recent work has questioned long-held dogmas by showing that cancer-associated genetic alterations occur in cells and tissues not directly exposed to radiation, questioning the robustness of the current system of radiation risk assessment. In vitro, diverse mechanisms involving secreted soluble factors, gap junction intercellular communication (GJIC) and oxidative metabolism are proposed to mediate these indirect effects. In vivo, the mechanisms behind long-range 'bystander' responses remain largely unknown. Here, we investigate the role of GJIC in propagating radiation stress signals in vivo, and in mediating radiation-associated bystander tumorigenesis in mouse central nervous system using a mouse model in which intercellular communication is downregulated by targeted deletion of the connexin43 (Cx43) gene. We show that GJIC is critical for transmission of oncogenic radiation damage to the non-targeted cerebellum, and that a mechanism involving adenosine triphosphate release and upregulation of Cx43, the major GJIC constituent, regulates transduction of oncogenic damage to unirradiated tissues in vivo. Our data provide a novel hypothesis for transduction of distant bystander effects and suggest that the highly branched nervous system, similar to the vascular network, has an important role.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Role of connexin43 and ATP in long-range bystander radiation damage and oncogenesis in vivo

et al. 2011

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“…Even repair is influenced by the structure; in fact the transcription zones are repaired faster than the silent zones, using enzymes and co-factors that recognise the damage. Their lack does not allow a timely repair influencing the survival and then the probability of inducing mutations and carcinogenesis processes [6].…”

Section: Radiation Damagementioning

confidence: 99%

CT exposure in adult and paediatric patients: a review of the mechanisms of damage, relative dose and consequent possible risks

et al. 2014

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An increase has been observed not only in the absolute number of CT examinations but also in the length of coverage and number of scanning phases, with the result that exposure to ionising radiation from CT is becoming an increasingly serious problem. The extent of the problem is not entirely known and cannot be adequately addressed without proper knowledge of all the phases that leads to the effective dose calculation. In light of the growing awareness of the issue of ionising radiation dose and the possible risk for the individual and the population, there is a need for radiologists, medical physicists and radiographers to play an active role in dose management. In this review, the authors try to delineate the problem in a consequential and multifaceted way: radiation-patient interaction, possible mechanisms of damage, main CT dose units, risk and its quantification in the population, with the aim of optimising the acquisition dose without diagnostic drawbacks. For an ''up-to-date'' use of CT, radiologists must know the dose concerns for the single patient and population, and use the CT apparatus with the best dose care; substitute CT with other diagnostic techniques when possible, especially in children; reduce the number/extension of scans and phases, and the dose in single scans and single examinations.

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“…An important model which has been used to demonstrate the tumourigenic potential of abscopal effects is the Patched-1 (Ptch1 +/-) mouse (41,42). PTCH is a Sonic Hedgehog (SHH) receptor and negative regulator of the pathway causing predisposition to childhood medulloblastoma (43).…”

Section: New Experimental Approaches For Studying Ribesmentioning

confidence: 99%

Bystander Signalling: Exploring Clinical Relevance Through New Approaches and New Models

Butterworth¹,

McMahon²,

Hounsell³

et al. 2013

Clinical Oncology

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Classical radiation biology research has centred on nuclear DNA as the main target of radiation induced damage. Over the past two decades, this has been challenged by a significant amount of scientific evidence clearly demonstrating radiation induced cell signalling effects to have important roles in mediating overall radiobiological response. These effects, generally termed radiation induced bystander effects (RIBEs) have challenged the traditional DNA targeted theory in radiation biology Key wordsbystander effect, in vivo, ionising radiation, microbeam SearchesArticles cited in this manuscript were sourced through a literature search on the Medline/Pubmed database using the search terms 'radiation', bystander' 'in vivo' and 'microbeam'. Full articles were retrieved when the abstract was deemed relevant. The bibliographies of retrieved papers were also searched and relevant articles included.

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Oncogenic bystander radiation effects in Patched heterozygous mouse cerebellum

Cited by 241 publications

References 37 publications

Role of connexin43 and ATP in long-range bystander radiation damage and oncogenesis in vivo

Role of connexin43 and ATP in long-range bystander radiation damage and oncogenesis in vivo

CT exposure in adult and paediatric patients: a review of the mechanisms of damage, relative dose and consequent possible risks

Bystander Signalling: Exploring Clinical Relevance Through New Approaches and New Models

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