Simulating Space Radiation-Induced Breast Tumor Incidence Using Automata.

UNLABELLED: Estimating cancer risk from space radiation has been an ongoing challenge for decades primarily because most of the reported epidemiological data on radiation-induced risks are derived from studies of atomic bomb survivors who were exposed to an acute dose of gamma rays instead of chronic high-LET cosmic radiation. In this study, we introduce a formalism using cellular automata to model the long-term effects of ionizing radiation in human breast for different radiation qualities. We first validated and tuned parameters for an automata-based two-stage clonal expansion model simulating the age dependence of spontaneous breast cancer incidence in an unexposed U.S. POPULATION: We then tested the impact of radiation perturbation in the model by modifying parameters to reflect both targeted and nontargeted radiation effects. Targeted effects (TE) reflect the immediate impact of radiation on a cell's DNA with classic end points being gene mutations and cell death. They are well known and are directly derived from experimental data. In contrast, nontargeted effects (NTE) are persistent and affect both damaged and undamaged cells, are nonlinear with dose and are not well characterized in the literature. In this study, we introduced TE in our model and compared predictions against epidemiologic data of the atomic bomb survivor cohort. TE alone are not sufficient for inducing enough cancer. NTE independent of dose and lasting ∼100 days postirradiation need to be added to accurately predict dose dependence of breast cancer induced by gamma rays. Finally, by integrating experimental relative biological effectiveness (RBE) for TE and keeping NTE (i.e., radiation-induced genomic instability) constant with dose and LET, the model predicts that RBE for breast cancer induced by cosmic radiation would be maximum at 220 keV/µm. This approach lays the groundwork for further investigation into the impact of chronic low-dose exposure, inter-individual variation and more complex space radiation scenarios.

CHOP Contributes to, But Is Not the Only Mediator of, IAPP Induced ß-Cell Apoptosis.

The islet in type 2 diabetes is characterized by ß-cell loss, increased ß-cell apoptosis, and islet amyloid derived from islet amyloid polypeptide (IAPP). When protein misfolding protective mechanisms are overcome, human IAPP (h-IAPP) forms membrane permeant toxic oligomers that induce ß-cell dysfunction and apoptosis. In humans with type 2 diabetes (T2D) and mice transgenic for h-IAPP, endoplasmic reticulum (ER) stress has been inferred from nuclear translocation of CCAAT/enhancer-binding protein homologous protein (CHOP), an established mediator of ER stress. To establish whether h-IAPP toxicity is mediated by ER stress, we evaluated diabetes onset and ß-cell mass in h-IAPP transgenic (h-TG) mice with and without deletion of CHOP in comparison with wild-type controls. Diabetes was delayed in h-TG CHOP(-/-) mice, with relatively preserved ß-cell mass and decreased ß-cell apoptosis. Deletion of CHOP attenuates dysfunction of the autophagy/lysosomal pathway in ß-cells of h-TG mice, uncovering a role for CHOP in mediating h-IAPP-induced dysfunction of autophagy. As deletion of CHOP delayed but did not prevent h-IAPP-induced ß-cell loss and diabetes, we examined CHOP-independent stress pathways. JNK, a target of the IRE-1pTRAF2 complex, and the Bcl-2 family proapoptotic mediator BIM, a target of ATF4, were comparably activated by h-IAPP expression in the presence and absence of CHOP. Therefore, although these studies affirm that CHOP is a mediator of h-IAPP-induced ER stress, it is not the only one. Therefore, suppression of CHOP alone is unlikely to be a durable therapeutic strategy to protect against h-IAPP toxicity because multiple stress pathways are activated.

Understanding cancer development processes after HZE-particle exposure: roles of ROS, DNA damage repair and inflammation.

During space travel astronauts are exposed to a variety of radiations, including galactic cosmic rays composed of high-energy protons and high-energy charged (HZE) nuclei, and solar particle events containing low- to medium-energy protons. Risks from these exposures include carcinogenesis, central nervous system damage and degenerative tissue effects. Currently, career radiation limits are based on estimates of fatal cancer risks calculated using a model that incorporates human epidemiological data from exposed populations, estimates of relative biological effectiveness and dose-response data from relevant mammalian experimental models. A major goal of space radiation risk assessment is to link mechanistic data from biological studies at NASA Space Radiation Laboratory and other particle accelerators with risk models. Early phenotypes of HZE exposure, such as the induction of reactive oxygen species, DNA damage signaling and inflammation, are sensitive to HZE damage complexity. This review summarizes our current understanding of critical areas within the DNA damage and oxidative stress arena and provides insight into their mechanistic interdependence and their usefulness in accurately modeling cancer and other risks in astronauts exposed to space radiation. Our ultimate goals are to examine potential links and crosstalk between early response modules activated by charged particle exposure, to identify critical areas that require further research and to use these data to reduced uncertainties in modeling cancer risk for astronauts. A clearer understanding of the links between early mechanistic aspects of high-LET response and later surrogate cancer end points could reveal key nodes that can be therapeutically targeted to mitigate the health effects from charged particle exposures.

Human-IAPP disrupts the autophagy/lysosomal pathway in pancreatic ß-cells: protective role of p62-positive cytoplasmic inclusions.

In type II diabetes (T2DM), there is a deficit in ß-cells, increased ß-cell apoptosis and formation of intracellular membrane-permeant oligomers of islet amyloid polypeptide (IAPP). Human-IAPP (h-IAPP) is an amyloidogenic protein co-expressed with insulin by ß-cells. IAPP expression is increased with obesity, the major risk factor for T2DM. In this study we report that increased expression of human-IAPP led to impaired autophagy, due at least in part to the disruption of lysosome-dependent degradation. This action of IAPP to alter lysosomal clearance in vivo depends on its propensity to form toxic oligomers and is independent of the confounding effect of hyperglycemia. We report that the scaffold protein p62 that delivers polyubiquitinated proteins to autophagy may have a protective role against human-IAPP-induced apoptosis, apparently by sequestrating protein targets for degradation. Finally, we found that inhibition of lysosomal degradation increases vulnerability of ß-cells to h-IAPP-induced toxicity and, conversely, stimulation of autophagy protects ß-cells from h-IAPP-induced apoptosis. Collectively, these data imply an important role for the p62/autophagy/lysosomal degradation system in protection against toxic oligomer-induced apoptosis.

Spatiotemporal characterization of ionizing radiation induced DNA damage foci and their relation to chromatin organization.

DNA damage sensing proteins have been shown to localize to the sites of DNA double strand breaks (DSB) within seconds to minutes following ionizing radiation (IR) exposure, resulting in the formation of microscopically visible nuclear domains referred to as radiation-induced foci (RIF). This review characterizes the spatiotemporal properties of RIF at physiological doses, minutes to hours following exposure to ionizing radiation, and it proposes a model describing RIF formation and resolution as a function of radiation quality and chromatin territories. Discussion is limited to RIF formed by three interrelated proteins ATM (Ataxia telangiectasia mutated), 53BP1 (p53 binding protein 1) and gammaH2AX (phosphorylated variant histone H2AX), with an emphasis on the later. This review discusses the importance of not equating RIF with DSB in all situations and shows how dose and time dependence of RIF frequency is inconsistent with a one to one equivalence. Instead, we propose that RIF mark regions of the chromatin that would serve as scaffolds rigid enough to keep broken DNA from diffusing away, but open enough to allow the repair machinery to access the damage site. We review data indicating clear kinetic and physical differences between RIF emerging from dense and uncondensed regions of the nucleus. We suggest that persistent RIF observed days following exposure to ionizing radiation are nuclear marks of permanent rearrangement of the chromatin architecture. Such chromatin alterations may not always lead to growth arrest as cells have been shown to replicate these in progeny. Thus, heritable persistent RIF spanning over tens of Mbp may reflect persistent changes in the transcriptome of a large progeny of cells. Such model opens the door to a "non-DNA-centric view" of radiation-induced phenotypes.

Up-regulation of hippocampal serotonin metabolism in mild cognitive impairment.

OBJECTIVE: Recent studies have suggested modifications of serotonin cerebral metabolism and of 5-HT(1A) receptors density in Alzheimer disease (AD). This study aims at exploring hippocampus 5-HT(1A) receptor density in patients at the amnesic mild cognitive impairment (aMCI) and mild AD dementia stages. METHODS: With use of PET with a selective 5-HT(1A) antagonist, 2'-methoxyphenyl-(N-2'-pyridinyl)-p-[(18)F]fluoro-benzamidoethylpiperazine ([(18)F]MPPF), the hippocampus 5-HT(1A) binding potential (BP) was quantified in 10 patients with mild AD, in 11 patients with aMCI, and in 21 aged paired control subjects. To take into account hippocampal atrophy, a partial volume correction was applied to the [(18)F]MPPF data, leading to the calculation of a corrected BP (BP(c)). Comparison of hippocampus BP over populations was performed using Kruskal-Wallis rank analysis. RESULTS: Hippocampus serotonergic receptor binding distinguishes patients from controls and patients with aMCI from patients with AD. In aMCI patients, the mean hippocampus BP(c) was 59% higher than the controls' (p < 0.005), and it was conversely 35% lower in patients with mild AD (p < 0.01). The difference in BP(c) values between patients with aMCI and mild AD was large, resulting in a p value of <0.0005. These differences were not related to hippocampus atrophy. CONCLUSION: A compensatory mechanism illustrated by an up-regulation of serotonergic metabolism has been shown at the stage of amnesic mild cognitive impairment (aMCI) in contrast with a dramatic decrease at later stages of Alzheimer disease (AD). This difference of hippocampus serotonergic receptor labeling allows distinguishing of patients with aMCI from those with mild AD. Exploring 5-HT(1A) receptors with 2'-methoxyphenyl-(N-2'-pyridinyl)-p-(18)F-fluoro-benzamidoethylpiperazine PET seems to be of interest for better understanding pathophysiologic changes at early stages of AD.

[Evaluation of an articulated spacer for two-stage reimplantation for infected total knee arthroplasty: 28 cases]. / Tolérance et efficacité d'une entretoise articulée dans les reprises en deux temps de prothèses de genou infectées: série rétrospective de 28 prothèses.

PURPOSE OF THE STUDY: Two-stage reimplantation remains the most popular solution for infected total knee arthroplasty. We have used articulated spacers since their introduction in 2000. We evaluated tolerance, joint motion under general anesthesia before reimplantation and also the infectious and functional long-term outcome. MATERIAL AND METHODS: Between June 2000 and April 2003, we implanted an articulated spacer in 28 patients who required revision of their total knee arthroplasty. Postoperatively, contact weight bearing was allowed with unlimited knee motion depending on pain control. Mean time between implant removal and reimplantation was eight weeks (range 6-16 weeks). RESULTS: There was one dislocation due to excessive play between the two components. Passive joint motion before reimplantation was 53 degrees (range 5-80 degrees ). At last follow-up, 24 patients were free of overt infection and all antibiotic regimens had been discontinued for at least 20 months (20-48 months). Two patients required a second two stage revision. One had an arthrodesis and in one only suppressive antibiotic therapy was possible. DISCUSSION: Spacer removal appears easy at reimplantation. Good knee flexion (greater than 40 degrees in ten patients and greater than 60 degrees in eight) facilitated exposure, avoiding the need for tilting of the tibial tuberosity in seven patients. Functional and infectious outcomes were similar to those reported in the literature. CONCLUSION: The spacer appears to improve patient comfort between the two operations. It also facilitates the reimplantation procedure because of the easier exposure and greater knee flexion compared with a mono-bloc spacer or an external fixator. There must however be enough bone stock to hold the articulated spacer in place.

Applications of quantitative digital image analysis to breast cancer research.

Our studies of radiogenic carcinogenesis in mouse and human models of breast cancer are based on the view that cell phenotype, microenvironment composition, communication between cells and within the microenvironment are important factors in the development of breast cancer. This is complicated in the mammary gland by its postnatal development, cyclic evolution via pregnancy and involution, and dynamic remodeling of epithelial-stromal interactions, all of which contribute to breast cancer susceptibility. Microscopy is the tool of choice to examine cells in context. Specific features can be defined using probes, antibodies, immunofluorescence, and image analysis to measure protein distribution, cell composition, and genomic instability in human and mouse models of breast cancer. We discuss the integration of image acquisition, analysis, and annotation to efficiently analyze large amounts of image data. In the future, cell and tissue image-based studies will be facilitated by a bioinformatics strategy that generates multidimensional databases of quantitative information derived from molecular, immunological, and morphological probes at multiple resolutions. This approach will facilitate the construction of an in vivo phenotype database necessary for understanding when, where, and how normal cells become cancer.

Radiation quality and tissue-specific microenvironments following exposure to 1 GeV/amu Fe.

This paper summarizes quantitative in vivo laminin immunofluorescence analysis of mammary glands and skin epithelial structures from mice exposed to 1 GeV/amu Fe ions. Digital confocal microscopic images were quantified and linked to the rough "core-penumbra" Fe track physical description. Comparison to gamma-ray sparsely ionizing radiation suggested the core of the Fe track being responsible for a biological response only seen with energetic Fe particles. Conclusions for modeling in vivo responses to radiation were then implied.

Large-mutation spectra induced at hemizygous loci by low-LET radiation: evidence for intrachromosomal proximity effects.

A mathematical model is used to analyze mutant spectra for large mutations induced by low-LET radiation. The model equations are based mainly on two-break misrejoining that leads to deletions or translocations. It is assumed, as a working hypothesis, that the initial damage induced by low-LET radiation is located randomly in the genome. Specifically, we analyzed data for two hemizygous loci: CD59- mutants, mainly very large-scale deletions (>3 Mbp), in human-hamster hybrid cells, and data from the literature on those HPRT- mutants which involve at least deletion of the whole gene, and often of additional flanking markers (approximately 50-kbp to approximately 4.4-Mbp deletions). For five data sets, we estimated f, the probability that two given breaks on the same chromosome will misrejoin to make a deletion, as a function of the separation between the breaks. We found that f is larger for nearby breaks than for breaks that are more widely separated; i.e., there is a "proximity effect". For acute irradiation, the values of f determined from the data are consistent with the corresponding break misrejoining parameters found previously in quantitative modeling of chromosome aberrations. The value of f was somewhat smaller for protracted irradiation than for acute irradiation at a given total dose; i.e., the mutation data show a decrease that was smaller than expected for dose protraction by fractionation or low dose rate.

Fluoxetine-induced pressor response in freely moving rats: a role for vasopressin and sympathetic tone.

The present study was performed in order to assess, in freely moving rats, the cardiovascular effects of central administration of fluoxetine, a serotonin reuptake inhibitor. Two kinds of experiments were performed: 1) acute central administration of fluoxetine. and 2) chronic intraperitoneal administration of fluoxetine plus selegiline, a monoamine oxidase B inhibitor. Intracerebroventricular (i.c.v.) administration of fluoxetine (5-50 microg) induced an increase in blood pressure. This fluoxetine-induced pressor response reached its maximal 1 hour after injection without any significant change in heart rate. At the dose of 10 microg i.c.v., fluoxetine significantly increased mean blood pressure by 16 +/- 4 mmHg. This pressor response was reduced by an intravenous (i.v.) pretreatment with the alpha1-adrenoceptor antagonist, prazosin (500 microg kg(-1)) (+ 7 +/- 4 mmHg, P <0.05) or with the V1A-vasopressin receptor antagonist (20 microg kg(-1)) (+5 +/- 3 mmHg, P < 0.05). The pressor response was completely abolished by a concomitant pretreatment with prazosin plus the V1A-vasopressin receptor antagonist. Pretreatment with the beta-adrenoceptor antagonist, propranolol (1 mg kg(-1) i.v.), or the 5-HT2 receptor antagonist, ketanserine (5 mg kg(-1) i.v.), did not modify the fluoxetine-induced pressor response. In freely moving rats receiving fluoxetine (10 microg i.c.v.), vasopressin plasma levels were significantly higher (39 +/- 5 pg mL(-1) than in rats receiving 10 microL i.c.v. saline (14 +/- 4 pg mL(-1)). A 30 day intraperitoneal (i.p.) administration of fluoxetine in association with selegiline induced an increase in noradrenaline plasma levels and locomotor activity without any significant change in blood pressure and heart rate. These data suggest that, the pressor response elicited by central acute administration of fluoxetine is mediated by both an increase in sympathetic tone and vasopressin release. This observation could suggest the putative interest of alpha1-adrenoceptor and or V1A-vasopressin receptor antagonists in the treatment of "Serotonin Syndrome".

Quantitative image analysis of laminin immunoreactivity in skin basement membrane irradiated with 1 GeV/nucleon iron particles.

We previously reported that laminin immunoreactivity in mouse mammary epithelium is altered shortly after whole-body irradiation with 0.8 Gy from 600 MeV/nucleon iron ions but is unaffected after exposure to sparsely ionizing radiation. This observation led us to propose that the effect could be due to protein damage from the high ionization density of the ion tracks. If so, we predicted that it would be evident soon after radiation exposure in basement membranes of other tissues and would depend on ion fluence. To test this hypothesis, we used immunofluorescence, confocal laser scanning microscopy, and image segmentation techniques to quantify changes in the basement membrane of mouse skin epidermis. At 1 h after exposure to 1 GeV/nucleon iron ions with doses from 0.03 to 1.6 Gy, neither the visual appearance nor the mean pixel intensity of laminin in the basement membrane of mouse dorsal skin epidermis was altered compared to sham-irradiated tissue. This result does not support the hypothesis that particle traversal directly affects laminin protein integrity. However, the mean pixel intensity of laminin immunoreactivity was significantly decreased in epidermal basement membrane at 48 and 96 h after exposure to 0.8 Gy 1 GeV/nucleon iron ions. We confirmed this effect with two additional antibodies raised against affinity-purified laminin 1 and the E3 fragment of the long-arm of laminin 1. In contrast, collagen type IV, another component of the basement membrane, was unaffected. Our studies demonstrate quantitatively that densely ionizing radiation elicits changes in skin microenvironments distinct from those induced by sparsely ionizing radiation. Such effects may might contribute to the carcinogenic potential of densely ionizing radiation by altering cellular signaling cascades mediated by cell-extracellular matrix interactions.

[Reduction of the pressor effect of fluoxetine after V1A-vasopressin receptor blockade in the conscious rats]. / Réduction de l'effet presseur de la fluoxétine après blocage des récepteurs V1A de la vasopressine, chez le rat conscient.

Pharmacovigilance data have reported some cases of arterial hypertension in patients treated with serotonin reuptake inhibitors. This side effect is now called serotonin syndrome. Moreover, some authors have shown that these drugs could reduce, at least in part, the fall in blood pressure (BP) observed in experimental models or in human forms of orthostatic hypotension, suggesting a modulation of the autonomic nervous system by these drugs. These data led us to study in freely moving Wistar rats the mechanisms involved and the putative involvement of autonomic nervous system. Intracerebroventricular (i.c.v.) administration of fluoxetine (5-50 micrograms) induced an increase in BP similar to which was obtained following central administration of serotonin (5-HT) (0.5-5 micrograms). After 5-HT, the pressor effect was immediate (1 min following injection) and involved the baroreflex pathway (bradycardia). The fluoxetine-induced pressor response reached its maximal 1 hour after injection without any significant change in heart rate (HR). At the dose of 10 micrograms i.c.v., fluoxetine significantly increased mean BP by 16 +/- 4 mmHg. This pressor response was partially but significantly reduced by a pretreatment by the alpha 1-adrenoreceptor antagonist, prazosin (500 micrograms.kg-1 i.v.) (+7 +/- 4 mmHg, p < 0.05) or by a V1A-vasopressin receptor antagonist (20 micrograms.kg-1 i.v.) (+5 +/- 3 mmHg, p < 0.05). However, pretreatment by the beta-adrenoreceptor antagonist, propranolol (1 mg.kg-1 i.v.) and the antagonist 5-HT2, ketanserine (5 mg.kg-1 i.v.) did not modify the fluoxetine-induced pressor response. In freely moving rats receiving fluoxetine (10 micrograms i.c.v.), vasopressin plasma levels were significantly higher (+39 +/- 5 pg.mL-1) than in rats receiving saline (100 microL i.c.v.) (+14 +/- 4 pg.mL-1), thus confirming the involvement of vasopressinergic mechanisms in the fluoxetine-induced pressor response. These data suggest that in freely moving Wistar rats, central acute administration of fluoxetine induces a pressor response mediated by both an increase in sympathetic tone and a vasopressin release. This observation could suggest the putative use of alpha 1-adrenoreceptors antagonists and/or V1A-vasopressin receptor antagonists in the treatment of the serotonin syndrome.

MIRD pamphlet No. 17: the dosimetry of nonuniform activity distributions--radionuclide S values at the voxel level. Medical Internal Radiation Dose Committee.

The availability of quantitative three-dimensional in vivo data on radionuclide distributions within the body makes it possible to calculate the corresponding nonuniform distribution of radiation absorbed dose in body organs and tissues. This pamphlet emphasizes the utility of the MIRD schema for such calculations through the use of radionuclide S values defined at the voxel level. The use of both dose point-kernels and Monte Carlo simulation methods is also discussed. PET and SPECT imaging can provide quantitative activity data in voxels of several millimeters on edge. For smaller voxel sizes, accurate data cannot be obtained using present imaging technology. For submillimeter dimensions, autoradiographic methods may be used when tissues are obtained through biopsy or autopsy. Sample S value tabulations for five radionuclides within cubical voxels of 3 mm and 6 mm on edge are given in the appendices to this pamphlet. These S values may be used to construct three-dimensional dose profiles for nonuniform distributions of radioactivity encountered in therapeutic and diagnostic nuclear medicine. Data are also tabulated for 131I in 0.1-mm voxels for use in autoradiography. Two examples illustrating the use of voxel S values are given, followed by a discussion of the use of three-dimensional dose distributions in understanding and predicting biologic response.