Project description:To evaluate decellularized skeletal muscle extracellular matrix hydrogel effectiveness in treating shoulder cuff tears using a rabbit (RI) model. Male New Zealand white rabbits had supraspinatus tendon severed and were housed for 12 weeks, after which they had tendon reattached and half of rabbits also received an extracellular matrix gel injection. We then performed gene expression profiling analysis using data obtained from RNA-seq from rabbit supraspinatus muscles (n=5 for repair+gel treatment, n=5 for repair only treatment , n=4 for injured control) at 2 weeks post and (n=5 for repair+gel treatment, n=5 for repair only treatment , n=5 for uninjured control) at 12 weeks post treatment

Project description:Vocal folds (VFs) are exposed to external and internal stimuli that may cause damage leading to structural alterations and compromised function. Extracellular matrix (ECM)-based biomaterials have been explored as bioactive scaffolds to tissue repair. An injectable form of the VF-ECM scaffold would be an ideal biomaterial for minimally invasive delivery to injured VFs. The goal of this study was to develop a hydrogel form of VF lamina propria ECM (VFLP-ECM) and to characterize its properties and in vitro cellular response.

Project description:Older subjects are more prone to develop systemic dehydration. Systemic dehydration has implications for vocal fold biology by affecting gene and protein expression. The interaction of hydration status and age has not been investigated in the context of vocal fold biology. We used comparative proteomics to analyze the vocal fold proteome of 6.5-month-old and over 3-year-old rabbits under water ad libitum or water volume restriction protocol. Young and old rabbits (n= 22) were either euhydrated (water ad libitum) or dehydrated by water volume restriction. Dehydration was confirmed by body weight loss of -5.4% and -4.6% in young and old groups, respectively, and a 1.7-fold increase of kidney renin gene expression in the young rabbits. LC-MS/MS identified 2,286 proteins in the rabbit vocal folds of young and old rabbits combined. Of these, 177, 169, and 81 proteins were significantlyaffected by age, hydration status, or the interaction of both factors, respectively. Comparative proteomics revealed a higher number of proteins differentially regulated in the vocal folds of older dehydrated rabbits compared to older euhydrated, and when compared to younger rabbits, regardless of hydration status. These proteins are predominantly related to structural components of the extracellular matrix and muscle layer, suggesting a disturbance in the viscoelastic properties of aging vocal fold tissue, especially when subjected to systemic dehydration.

Project description:We previously reported the establishment of a rabbit (Oryctolagus cuniculus) model of Systemic Lupus Erythematosus (SLE) in which peptide immunization led to lupus-like autoantibody production including anti-Sm, -RNP, -SS-A, -SS-B and -dsDNA. Some neurological symptoms in form of seizures and nystagmus were observed. The animals used in the previous and in the present study were from a National Institute of Allergy and Infectious Diseases colony of rabbits that were pedigreed, immunoglobulin allotype-defined but not inbred. Their genetic heterogeneity may correspond to that found among patients of a given ethnicity. We extended the information about this rabbit model of SLE by microarray based expression profiling. We first demonstrated that human expression arrays could be used with rabbit RNA to yield information on molecular pathways. We then designed a study evaluating gene expression profiles in 8 groups of control and SLE rabbits (46 rabbits in total). Genes significantly upregulated in SLE rabbits were associated with NK cytotoxicity, antigen presentation, leukocyte migration, cytokine activity, protein kinases, RNA spliceosomal ribonucleoproteins, intracellular signaling cascades, and glutamate receptor activity. These results link increased immune activation with up-regulation of components associated with neurological and anti-RNP responses, demonstrating the utility of the rabbit SLE model to uncover biological pathways related to SLE-induced clinical symptoms, including Neuropsychiatric Lupus. Our finding of distinct gene expression patterns in rabbits that made anti-dsDNA compared to those that only made other anti-nuclear antibodies should be further investigated in subsets of SLE patients with different autoantibody profiles.

Project description:We previously reported the establishment of a rabbit (Oryctolagus cuniculus) model of Systemic Lupus Erythematosus (SLE) in which peptide immunization led to lupus-like autoantibody production including anti-Sm, -RNP, -SS-A, -SS-B and -dsDNA. Some neurological symptoms in form of seizures and nystagmus were observed. The animals used in the previous and in the present study were from a National Institute of Allergy and Infectious Diseases colony of rabbits that were pedigreed, immunoglobulin allotype-defined but not inbred. Their genetic heterogeneity may correspond to that found among patients of a given ethnicity. We extended the information about this rabbit model of SLE by microarray based expression profiling. We first demonstrated that human expression arrays could be used with rabbit RNA to yield information on molecular pathways. We then designed a study evaluating gene expression profiles in 8 groups of control and SLE rabbits (46 rabbits in total). Genes significantly upregulated in SLE rabbits were associated with NK cytotoxicity, antigen presentation, leukocyte migration, cytokine activity, protein kinases, RNA spliceosomal ribonucleoproteins, intracellular signaling cascades, and glutamate receptor activity. These results link increased immune activation with up-regulation of components associated with neurological and anti-RNP responses, demonstrating the utility of the rabbit SLE model to uncover biological pathways related to SLE-induced clinical symptoms, including Neuropsychiatric Lupus. Our finding of distinct gene expression patterns in rabbits that made anti-dsDNA compared to those that only made other anti-nuclear antibodies should be further investigated in subsets of SLE patients with different autoantibody profiles. An important goal of biomedical research is to translate basic findings into clinical applications. Models in inbred mice that spontaneously develop SLE, along with various mutant, transgenic and knockout models have documented a variety of genetic defects leading to SLE, but from the clinical perspective, the degree to which these findings using the inbred or homogeneous artificially mutated strains apply to individuals in heterogeneous outbred human populations is open to question. Given that there is still no cure available for SLE, it is important that we continue to explore possibilities using new animal models of SLE including neuropsychiatric lupus (NPSLE). The gene expression study reported here was conducted to expand our understanding of SLE and in particular NPSLE using our rabbit model. We reported earlier that immunization of rabbits with the SM- or GR-MAP peptides led to development of anti-nuclear autoantibodies, including anti-dsDNA, as well as neurological symptoms in the form of seizures and nystagmus in some rabbits. After establishing that it was possible to use the Affymetrix U95 human microarray for the rabbit gene expression studies, through comparative hybridization of identically prepared cRNA from human and rabbit PWBC, the human microarray was used due to lack of rabbit-specific microarrays. We describe unique gene expression changes associated with lupus like serological patterns in immunized rabbits. Our results also demonstrate that caution must be applied when choosing the structure of the carrier Multiple Antigen Peptide (MAP-peptide) for immunization. We discovered that using MAP-4 rather than MAP-8 significantly altered patterns of immune response and gene expression. Currently, microarrays specific for study of gene expression profiles are not available for rabbits. Therefore, we first conducted studies that compared identically prepared rabbit and human cRNA binding to the Affymetrix U95 microarray available for human gene expression analyses. It was determined that the human microarray could be used with rabbit cRNA to yield information on genetic pathways activated and/or suppressed in autoantibody-producing immunized rabbits. In the current report, gene expression profiles of a total of 46 rabbits, from 4 generations within a pedigreed group of control and immunized rabbits, were obtained and analyzed.

Project description:The objective of this study was to obtain a comprehensive proteome of euhydrated and systemically dehydrated rabbit vocal folds. We hypothesized that a mild-moderate systemic dehydration level would lead to changes in protein levels. New Zealand White rabbits were randomly assigned to euhydrated (control) or furosemide-dehydrated groups. Systemic dehydration was assessed by body weight loss and changes in blood markers. Vocal fold specimens were processed for proteomic analysis using liquid chromatography-tandem mass spectrometry. Systemic dehydration induced 5.5 percent body weight loss (range: 4.5 to 6.5 percent) and significant changes in blood analytes compared to controls. More than 1500 proteins were identified across all vocal fold samples, associated with a variety of cellular components and ubiquitous cell functions such as protein synthesis and degradation, and mitochondrial translation and respiration. The comparison analysis identified 27 proteins differentially expressed in the systemically dehydrated vocal folds. These proteins are mainly involved with mitochondrial translation and metabolism, which are downregulated in response to systemic dehydration. We identified a large group of proteins representing the rabbit vocal fold tissue. The data provide novel insights on the response of vocal folds to a mild-moderate level of systemic dehydration that involves the downregulation of mitochondrial metabolism, suggesting a biologic mechanism to prevent oxidative damage associated with furosemide-induced dehydration.

Project description:Treatment of chronic inflammatory diseases with tumor necrosis factor alpha antagonists has been associated with increased risk of tuberculosis (TB). We examined the usefulness of the rabbit model of active pulmonary TB for studying the impact of the human immune modulatory reagent etanercept on the host immune response. Control of Mycobacterium tuberculosis (Mtb) infection, disease pathology and the global transcriptional response in Mtb-infected lungs of rabbits were studied. Etanercept treatment exacerbated disease pathology and reduced bacillary control in the lungs, compared to infected untreated animals. The microarray experiments involves comparison of changes in gene expression between Mtb-HN878 infected and Etanercept treated and untreated rabbit lungs at 4 and 8 weeks post-treatment, starting at 4 weeks post-infection. New Zealand White rabbits were infected with Mtb HN878 at about 3.2log10 (on day 0). One group of rabbits were treated with Etanercept, starting at 4 weeks post-infection, for 4 or 8 weeks. Total RNA from lung tissues of treated and untreated animals were isolated at 4 and 8 weeks post treatment and used for microarray gene expression analysis.

Project description:In our rabbit model of pulmonary tuberculosis, infection with Mtb HN878, a hyper-virulent W-Beijing strain, results in progressive cavitary disease. However, infection of rabbit lungs with Mtb CDC1551, a hyper-immunogenic strain is effectively controlled overtime, establishing latent Mtb infection. Using these two Mtb strains, we tested the hypothesis that the initial host response in the lungs within hours of infection determines later outcome. The microarray experiments was performed to identify gene expression changes in the Mtb-HN878 or CDC1551- infected rabbit lungs at 3 hours post infection, compared to uninfected naïve rabbit lungs. New Zealand White rabbits were infected with Mtb HN878 or CDC1551 at ~3.5log10. At 3 hours post infection, lung tissue from Mtb-infected and uninfected rabbits were isolated and used for total RNA extraction. Total rabbit lung RNA was used for microarray analysis to determine infection induced changes in host gene expression.

Project description:The purpose of this study is to investigate if acute systemic dehydration impacts the vocal folds at the mRNA level. Rabbits were used as animal model to enable a systematic and rigorous assessment of the pathobiology of vocal fold hydration since they can be manipulated in a physiologically realistic manner. We anticipate that the results of this study will help to elucidate the effects of altered hydration state in response to furosemide on vocal fold epithelium, lamina propria and muscle tissue at the transcriptome level. Together with cellular, structural, and functional techniques that are part of this project, we expect to provide validated scientific recommendations on the adverse effects of dehydration and the therapeutic benefits of hydration.

Project description:Acute pulmonary thromboembolism (PTE) refers to the obstruction of the pulmonary artery or its branches by thrombus. Recent studies suggest that PTE-induced endothelium injury is the major physiological consequence of PTE, and PTE-induced endothelium injury can be used to stratify disease severity. Several plasma biomarkers have been identified in PTE patients, but genome-wide gene expression has not been attempted in PTE. In this study, using rabbit autologous thrombus PTE model, we applied gene expression array to identify genes and proteins changes in pulmonary arteries under PTE. Twenty healthy China big-ear rabbits, specific-pathogen-free (SPF) grade and weighing between 2.5 and 3 kg, were purchased from the Center of experimental animals of the Nantong University. These rabbits were randomly divided into control (n=10) and experimental group (n=10). One hour before the experiment, thrombi were generated by collecting 0.5 ml blood from the marginal ear vein and placing into a sterile petri dish for 45 minutes at room temperature. The autologous blood clot was subsequently cut into 5 mm sized aliquots and suspended in sterile saline. After anesthesia, a venous catheter was placed in the exposed and isolated femoral vein. In the experimental group, the blood clot in 10 mL of saline was injected into the femoral vein. An additional 5 mL of saline were used to flush the catheter. In the control group, 15 mL of saline were injected into the femoral vein. Afterwards, the animals were placed back in the cage.