Browsing by Author "Gutierrez, Juan Claudio"

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    Characterization of the expression of angiogenic factors in the feline placenta during development and in feline cutaneous squamous cell carcinoma
    Gudenschwager Basso, Erwin Kristobal Felipe (Virginia Tech, 2018-11-13)
    Throughout gestation, the blood vessel network of the placenta is formed sequentially by processes known as vasculogenesis and angiogenesis, which together meet the needs of the growing fetus. Normal placental angiogenesis is critical to support adequate fetal growth and assure the health of the offspring. Proper angiogenesis requires precise regulation of expression of agents that modulate this process; otherwise, pathologies of pregnancy such as preeclampsia may occur. The placenta is composed of different layers of tissue, including the lamellar (LZ), junctional, and glandular zones, each with a vascular morphology attuned to its function. We hypothesized that higher expression of pro-angiogenic factors is associated with increased morphological metrics in the LZ, the major vascularized zone. Thus, we aimed to characterize the major changes in morphology and vascular development in the placenta throughout pregnancy in cats, alongside a compressive analysis of the expression of major angiogenic factors and their receptors in the placenta, with an emphasis on the identification and interaction of different isoforms of the VEGF family. Microscopic analysis of tissue specimens from different stages of pregnancy revealed increased thickness of the LZ, especially during early to mid-gestation, at which time the tissue is composed of abundant materno-fetal interdigitations that appears rich in capillaries. VEGF proteins were detected in placental tissue in both fetal and maternal cells of the placenta, suggesting stimulatory interactions between different cell types to promote growth and angiogenesis. Gene expression analysis of placenta revealed upregulation of the pro-angiogenic factor VEGF-A in mid-pregnancy, followed by a steady decline toward term, consistent with morphologic changes in the LZ. In contrast, another pro-angiogenic factor, PlGF, showed a marked increase toward term; Flt-1, which acts as a receptor or reservoir for PLGF and VEGF A, was also upregulated at late pregnancy. Increased ratios of PLGF:VEGF-A may contribute to LZ proliferation in the last trimester. These findings are consistent with the creation of a proangiogenic placental state during gestation. Overall, we expect that this research will help elucidate mechanisms of placental vascularization, which can be applied to the design of improved strategies to treat vascular complications of pregnancy. Lastly, we applied the tools developed for placental studies to investigate pathologic angiogenesis in cutaneous squamous cell carcinoma (CSCC), a common skin cancer with major economic and medical impacts in humans and veterinary species. The creation of a new blood supply is essential for growth and metastasis of many tumor types. The goal of this study was to measure expression of variants of proteins that stimulate angiogenesis or transmit an angiogenic stimulus in feline CSCC. The results were mixed, with differences detected in expression of some regulatory agents and, for others, unexpectedly lower expression in CSSC compared to controls. Interestingly, the expression of VEGF-A relative to the protein that transmits its signal (KDR) was elevated in CSCC, suggestive of an altered signaling relationship. This finding supports our hypothesis and is consistent with human SCC studies. Our results encourage further studies on angiogenic factor variants in feline CSCC.
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    Improved Late-gestation Cardiac Morphology in Fetuses of Diabetic Mothers After Maternal Immune Stimulation: Potential Role of Dysregulated Apoptosis
    Gutierrez, Juan Claudio (Virginia Tech, 2009-01-22)
    The incidence of malformed newborns is higher in human pregnancies complicated by diabetes mellitus, as compared to non-diabetic pregnancies. Neural tube and cardiac defects predominate among the fetal malformations induced by hyperglycemia. Non-specific maternal immune stimulation is protective in mice against birth malformations caused by chemical or physical teratogens, or by maternal diabetes mellitus. Insulin dependent diabetes was induced in ICR females to study the late gestation fetal heart by morphometric analysis. Diabetic females treated with Freund's compete adjuvant (FCA) or interferon-gamma (IFNγ) were also generated to elucidate potential positive effects of maternal immune stimulation during the diabetic pregnancy by morphometric analysis and pathologic scoring. Insulin-dependent CD1 females were generated to analyze late gestation fetal myocardial apoptosis by flow cytometric analysis and by real time-polymerase chain reaction (RT-PCR) analysis of a panel of 5 genes involved in apoptosis/proliferation (Bcl-2, P53, Caspase3, Caspase9 and PkC-e). The morphometric analysis of fetal hearts revealed visibly obvious dilation of ventricular chambers and outflow channel of the left ventricle, and reduction of total myocardial ventricular area in late gestation fetuses, as predominant changes seen in the offspring of diabetic dams. Pathologic scoring revealed that maternal immune stimulation, particularly with FCA, in part alleviated fetal heart changes of cavitary dilation and myocardial reduction. Increased rate of apoptosis/necrosis in the fetal myocardium in late gestation during the diabetic pregnancy was evidenced by flow cytometric analysis. Particularly there was a significant increase in percentage of early apoptotic cells in the fetal myocardium detected by cell markers annexin V and propidium iodide. There was also a significant increase in percentage of late apoptotic/necrotic fetal myocardial cells in the diabetic group compared to the control group. These results suggest that maternal treatment with FCA may in part protect the heart from high hyperglycemia by reducing the number of myocardial cells undergoing apoptosis and necrosis. The RT-PCR analysis revealed subtle changes in gene expression for all the genes except Bcl-2. A paradoxical and dramatic up-regulation of this anti-apoptotic gene was observed in late gestation fetal myocardium from the insulin-dependent hyperglycemic groups. Possibly, this could be a mechanism to protect the fetal myocardial cell from the chronic exposure to a severe hyperglycemic insult and consequent apoptosis. In conclusion, maternal insulin-dependent diabetes caused morphological changes in the late gestation fetal heart. Such changes were in part related to dysregulation of myocardial apoptosis. Maternal immune stimulation with FCA improved fetal heart morphology, by a mechanism that may in part relate to normalizing fetal myocardial apoptosis.
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    Short- and Long-Term Effects of Commercially Available Gold Nanoparticles in Rodents
    Bahamonde Azcuy, Javiera del Pilar (Virginia Tech, 2014-01-24)
    Gold nanoparticles (GNPs) are currently being intensely investigated for their potential use in biomedical applications. Nanotoxicity studies are urgently needed to validate their safety in clinical practice. The objective of this research was to assess the acute, subacute, and chronic effects of a single intravenous exposure to commercially available GNPs in two in vivo models, mice and rats. Gold nanoparticles were purchased and independently characterized. Animals were exposed to either 1000 mg GNPs/kg body weight (GNP group) or an equivalent volume of phosphate buffered saline (PBS group) intravenously via the tail vein. Subsets of animals were euthanized 1, 7, 14, 21, 28 days (female BALB/c mice and female F344 rats) or 20 weeks (female and male C57BL/6 mice) post-exposure and samples were collected for biochemistry, histopathology, electron microscopy, and atomic absorption spectrometry analysis. Independent characterization demonstrated that the physicochemical properties of the purchased GNPs were in good agreement with the information provided by the supplier. Important differences in GNP-induced immune responses were identified when comparing mice and rats 1 to 28 days post-exposure. Gold nanoparticles stimulated the formation of liver microgranulomas in mice, along with transiently increased serum levels of the proinflammatory cytokine interleukin-18. No such alterations were found in rats. Species differences in GNP biodistribution and excretion were also detected, with higher relative accumulation of GNPs in spleen and longer fecal excretion in rats. In the long-term (20 weeks after dosing), exposure to GNPs incited chronic inflammation in mice, characterized by the persistence of microgranulomas in liver, spleen, and lymph nodes, as well as further increased serum levels of interleukin-18. Impairment of body weight gain was also observed in the GNP-exposed group. No sex differences were detected. In conclusion, GNPs are not innocuous and have the ability to incite a robust macrophage response in mice. However, considering the mildness of the toxic effects identified despite the high dose selected for the study, GNPs continue to have great potential for biomedical uses. Further studies are needed in order to determine specific mechanisms of toxicity and the role of chronic inflammation in the development of adverse effects after co- or post-exposures.