Lymphoid and Myeloid Recovery in Rhesus Macaques Following Total Body X-Irradiation

Farese, Ann M.; Hankey, Kim G.; Cohen, Melanie; MacVittie, Thomas J.

doi:10.1097/hp.0000000000000348

Cited by 28 publications

(37 citation statements)

References 57 publications

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“…NHP have been used in radiation dose response studies for many decades [ 9 – 11 , 17 , 46 ], focusing on the effects of mitigators on acute radiation syndromes of different organ systems and mortality. However, there have been few studies of the cellular and molecular level changes underlying these broad biological end-points.…”

Section: Discussionmentioning

confidence: 99%

Whole thorax irradiation of non-human primates induces persistent nuclear damage and gene expression changes in peripheral blood cells

et al. 2018

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We investigated the cytogenetic and gene expression responses of peripheral blood cells of non-human primates (NHP, Macaca mulatta) that were whole-thorax irradiated with a single dose of 10 Gy. In this model, partial irradiation of NHPs in the thoracic region (Whole Thorax Lung Irradiation, WTLI) allows the study of late radiation-induced lung injury, while avoiding acute radiation syndromes related to hematopoietic and gastrointestinal injury. A transient drop in circulating lymphocytes and platelets was seen by 9 days, followed by elevations in respiratory rate, circulating neutrophils, lymphocytes, and monocytes at 60–100 days, corresponding to computed tomography (CT) and histologic evidence of pneumonitis, and elective euthanasia of four animals. To evaluate long-term DNA damage in NHP peripheral blood lymphocytes after 10 Gy WTLI, we used the cytokinesis-block micronucleus (CBMN) assay to measure chromosomal aberrations as post-mitotic micronuclei in blood samples collected up to 8 months after irradiation. Regression analysis showed significant induction of micronuclei in NHP blood cells that persisted with a gradual decline over the 8-month study period, suggesting long-term DNA damage in blood lymphocytes after WTLI.We also report transcriptomic changes in blood up to 30 days after WTLI. We isolated total RNA from peripheral blood at 3 days before and then at 2, 5 and 30 days after irradiation. We identified 1187 transcripts that were significantly changed across the 30-day time course. From changes in gene expression, we identified biological processes related to immune responses, which persisted across the 30-day study. Response to oxygen-containing compounds and bacteria were implicated by gene-expression changes at the earliest day 2 and latest, day 30 time-points. Gene expression changes suggest a persistent altered state of the immune system, specifically response to infection, for at least a month after WTLI.

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Section: Discussionmentioning

confidence: 99%

Whole thorax irradiation of non-human primates induces persistent nuclear damage and gene expression changes in peripheral blood cells

et al. 2018

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“…The MCART consortium has developed and characterized animal models that define the incidence, latency, severity and onset of GI-ARS, H-ARS, and MOI involving the kidney, lung, and heart (Farese et al 2012;Jackson et al 2012;Plett et al 2012;Garofalo et al 2014;de Faria et al 2015;Farese et al 2015;Medhora et al 2015;Zhang et al 2015;Cohen et al 2017). Histological, clinical, and analytical techniques were used to interrogate mechanisms of action (MoA) and identify biomarkers of radiation injury following all-cause mortality (Booth et al 2012a;Chua et al 2012;MacVittie et al 2012a;Jones et al 2014a;Jones et al 2014b;Carter et al 2015;Farese et al 2015;Jones et al 2015;Zhang et al 2015;Carter et al 2016;Carter et al 2017;Cohen et al 2017;Jones et al 2017). While these studies have provided vital mechanistic 'pieces of the puzzle' and identified panels of biomarkers that can be used to assess injury and efficacy of a MCM, they cannot inform on the natural history of injury development.…”

Section: Introductionmentioning

confidence: 99%

Characterizing the Natural History of Acute Radiation Syndrome of the Gastrointestinal Tract: Combining High Mass and Spatial Resolution Using MALDI-FTICR-MSI

et al. 2019

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The acute radiation syndrome of the gastrointestinal tract has been histologically characterized but the molecular and functional mechanisms that lead to these cellular alterations remain enigmatic. Mass spectrometry imaging is the only technique that enables the simultaneous detection and cellular or regional localization of hundreds of biomolecules in a single experiment. This current study utilized matrix-assisted laser desorption/ionization mass spectrometry imaging for the molecular characterization of the first natural history study of GI-ARS in the non-human primate. Jejunum samples were collected at days 4, 8, 11, 15 and 21 following 12 Gy partial body irradiation with 2.5% bone marrow sparing. Mass spectrometry imaging investigations identified alterations in lipid species that further understanding of the functional alterations that occur over time in the different cellular regions of the jejunum following exposure to high doses of irradiation. Alterations in phosphatidylinositol species informed on dysfunctional epithelial cell differentiation and maturation. Differences in glycosphingolipids of the villi epithelium that would influence the absorptive capacity and functional structure of the brush border membrane were detected. Dichotomous alterations in cardiolipins indicated altered structural and functional integrity of mitochondria. Phosphatidylglycerol species, known regulators of toll-like receptors, were detected and localized to regions in the lamina propria that contained distinct immune cell populations. These results provide molecular insight that can inform on injury mechanism in a non-human primate model of the acute radiation syndrome of the gastrointestinal tract. Findings may contribute to the identification of therapeutic targets and the development of new medical countermeasures.

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“…This is consistent with prior observations from lymphopenic mice, humans, and irradiated NHPs. 19,39 Although peripheral expansion can lead to constriction of TCR diversity, 39 we did not observe a significant change in TCR sequence entropy once the memory:naïve cell balance returned to baseline, suggesting any TCR skewing was transient.…”

Section: Discussionmentioning

confidence: 64%

“…Given these complications, the rhesus macaque nonhuman primate (NHP) model is often used for evaluation of immune function and radiation countermeasures. [19][20][21][22][23] Importantly, the rhesus immune system closely recapitulates that of humans, and NHPs are susceptible to many human pathogens and simian pathogens that are similar to human pathogens. Further, NHPs are inherently susceptible to inflammation-associated morbidities found in humans such as obesity and hypertension.…”

Section: Introductionmentioning

confidence: 98%

Long-Term Recovery of the Adaptive Immune System in Rhesus Macaques After Total Body Irradiation

Macintyre

French

Sanders

et al. 2021

Advances in Radiation Oncology

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Ionizing radiation causes acute damage to hematopoietic and immune cells, but the long-term immunologic consequences of irradiation are poorly understood. We therefore performed a prospective study of the delayed immune effects of radiation using a rhesus macaque model. Methods and Materials: Ten macaques received 4 Gy high-energy x-ray total body irradiation (TBI) and 6 control animals received sham irradiation. TBI caused transient lymphopenia that resolved over several weeks. Once white blood cell counts recovered, flow cytometry was used to immunophenotype the circulating adaptive immune cell populations 4, 9, and 21 months after TBI. Data were fit using a mixed-effects model to determine age-dependent, radiation-dependent, and interacting effects. T cell receptor (TCR) sequencing and quantification of TCR Excision Circles were used to determine relative contributions of thymopoiesis and peripheral expansion to T cell repopulation. Two years after TBI, the cohort was vaccinated with a 23-valent pneumococcal polysaccharide vaccine and a tetravalent influenza hemagglutinin vaccine. Results: Aging, but not TBI, led to significant changes in the frequencies of dendritic cells, CD4 and CD8 T cells, and B cells. However, irradiated animals exhibited increased frequencies of central memory T cells and decreased frequencies of naïve T cells. These consequences of irradiation were time-dependent and more prolonged in the CD8 T cell population. Irradiation led to transient increases in CD8þ T cell TCR Excision Circles and had no significant effect on TCR sequence entropy, indicating T cell recovery was partially mediated by thymopoiesis. Animals that were irradiated and then vaccinated showed normal immunoglobulin G binding and influenza neutralization titers in response to the 4 protein antigens but weaker immunoglobulin G binding titers to 10 of the 23 polysaccharide antigens.

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Lymphoid and Myeloid Recovery in Rhesus Macaques Following Total Body X-Irradiation

Cited by 28 publications

References 57 publications

Whole thorax irradiation of non-human primates induces persistent nuclear damage and gene expression changes in peripheral blood cells

Whole thorax irradiation of non-human primates induces persistent nuclear damage and gene expression changes in peripheral blood cells

Characterizing the Natural History of Acute Radiation Syndrome of the Gastrointestinal Tract: Combining High Mass and Spatial Resolution Using MALDI-FTICR-MSI

Long-Term Recovery of the Adaptive Immune System in Rhesus Macaques After Total Body Irradiation

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