Your search keyword '"Wiersch, John"' showing total 9 results

1. A smad signaling network regulates islet cell proliferation

Author

Gohary, Yousef El-, Tulachan, Sidhartha, Wiersch, John, Guo, Ping, Welsh, Carey, Prasadan, Krishna, Paredes, Jose, Shiota, Chiyo, Xiao, Xiangwei, Wada, Yoko, Diaz, Marilyn, and Gittes, George

Subjects

Cell proliferation -- Genetic aspects, Carrier proteins -- Identification and classification, Cellular signal transduction -- Research, Health

Abstract

Pancreatic β-cell loss and dysfunction are critical components of all types of diabetes. Human and rodent β-cells are able to proliferate, and this proliferation is an important defense against the evolution and progression of diabetes. Transforming growth factor-β (TGF-β) signaling has been shown to affect β-cell development, proliferation, and function, but β-cell proliferation is thought to be the only source of new β-cells in the adult. Recently, β-cell dedifferentiation has been shown to be an important contributory mechanism to β-cell failure. In this study, we tie together these two pathways by showing that a network of intracellular TGF-β regulators, smads 7, 2, and 3, control β-cell proliferation after β-cell loss, and specifically, smad7 is necessary for that β-cell proliferation. Importantly, this smad7-mediated proliferation appears to entail passing through a transient, nonpathologic dedifferentiation of β-cells to a pancreatic polypeptide--fold hormone-positive state. TGF-β receptor II appears to be a receptor important for controlling the status of the smad network in β-cells. These studies should help our understanding of properly regulated β-cell replication. Diabetes 2014;63:224-236 | DOI: 10.2337/db13-0432, New pancreatic β-cells form in response to a loss of β-cell mass, and this formation of new β-cells is thought to be an important defense against the evolution and progression [...]

Published

2014

2. TGβ receptor signaling is essential for inflammation-induced but not β-cell workload-induced β-cell proliferation

Author

Xiao, Xiangwei, Wiersch, John, El-Gohary, Yousef, Guo, Ping, Prasadan, Krishna, Paredes, Jose, Welsh, Carey, Shiota, Chiyo, and Gittes, George K.

Subjects

Cell proliferation -- Physiological aspects -- Genetic aspects -- Research, Transforming growth factors -- Physiological aspects -- Genetic aspects -- Research, Cellular signal transduction -- Physiological aspects -- Genetic aspects -- Research, Health

Abstract

Protection and restoration of a functional β-cell mass are fundamental strategies for prevention and treatment of diabetes. Consequently, knowledge of signals that determine the functional β-cell mass is of immense clinical relevance. Transforming growth factor p (TGFβ) superfamily signaling pathways play a critical role in development and tissue specification. Nevertheless, the role of these pathways in adult β-cell homeostasis is not well defined. Here, we ablated TGFβ receptor I and II genes in mice undergoing two surgical β-cell replication models (partial pancreatectomy or partial duct ligation), representing two triggers for β-cell proliferation, increased β-cell workload and local inflammation, respectively. Our data suggest that TGFβ receptor signaling is necessary for baseline β-cell proliferation. By either provision of excess glucose or treatment with exogenous insulin, we further demonstrated that inflammation and increased β-cell workload are both stimulants for β-cell proliferation but are TGFβ receptor signaling dependent and independent, respectively. Collectively, by using a pancreas-specific TGFβ receptor-deleted mouse model, we have identified two distinct pathways that regulate adult β-cell proliferation. Our study thus provides important information for understanding β-cell proliferation during normal growth and in pancreatic diseases., Preservation and restoration of a functional β-cell mass are fundamental objectives in diabetes therapy (1), which require an understanding of the regulation of β-cell mass in the adult pancreas. During [...]

Published

2013

3. Transient Suppression of TGFβ Receptor Signaling Facilitates Human Islet Transplantation

Author

Xiao, Xiangwei, Fischbach, Shane, Song, Zewen, Gaffar, Iljana, Zimmerman, Ray, Wiersch, John, Prasadan, Krishna, Shiota, Chiyo, Guo, Ping, Ramachandran, Sabarinathan, Witkowski, Piotr, and Gittes, George K.

Abstract

Although islet transplantation is an effective treatment for severe diabetes, its broad application is greatly limited due to a shortage of donor islets. Suppression of TGFβ receptor signaling in β-cells has been shown to increase β-cell proliferation in mice, but has not been rigorously examined in humans. Here, treatment of human islets with a TGFβ receptor I inhibitor, SB-431542 (SB), significantly improved C-peptide secretion by β-cells, and significantly increased β-cell number by increasing β-cell proliferation. In addition, SB increased cell-cycle activators and decreased cell-cycle suppressors in human β-cells. Transplantation of SB-treated human islets into diabetic immune-deficient mice resulted in significant improvement in blood glucose control, significantly higher serum and graft insulin content, and significantly greater increases in β-cell proliferation in the graft, compared with controls. Thus, our data suggest that transient suppression of TGFβ receptor signaling may improve the outcome of human islet transplantation, seemingly through increasing β-cell number and function.

Published

2016

4. Intraislet Pancreatic Ducts Can Give Rise to Insulin-Positive Cells

Author

El-Gohary, Yousef, Wiersch, John, Tulachan, Sidhartha, Xiao, Xiangwei, Guo, Ping, Rymer, Christopher, Fischbach, Shane, Prasadan, Krishna, Shiota, Chiyo, Gaffar, Iljana, Song, Zewen, Galambos, Csaba, Esni, Farzad, and Gittes, George K.

Abstract

A key question in diabetes research is whether new β-cells can be derived from endogenous, nonendocrine cells. The potential for pancreatic ductal cells to convert into β-cells is a highly debated issue. To date, it remains unclear what anatomical process would result in duct-derived cells coming to exist within preexisting islets. We used a whole-mount technique to directly visualize the pancreatic ductal network in young wild-type mice, young humans, and wild-type and transgenic mice after partial pancreatectomy. Pancreatic ductal networks, originating from the main ductal tree, were found to reside deep within islets in young mice and humans but not in mature mice or humans. These networks were also not present in normal adult mice after partial pancreatectomy, but TGF-β receptor mutant mice demonstrated formation of these intraislet duct structures after partial pancreatectomy. Genetic and viral lineage tracings were used to determine whether endocrine cells were derived from pancreatic ducts. Lineage tracing confirmed that pancreatic ductal cells can typically convert into new β-cells in normal young developing mice as well as in adult TGF-β signaling mutant mice after partial pancreatectomy. Here the direct visual evidence of ducts growing into islets, along with lineage tracing, not only represents strong evidence for duct cells giving rise to β-cells in the postnatal pancreas but also importantly implicates TGF-β signaling in this process.

Published

2016

5. How do Perceptions of Autonomy Differ in General Surgery Training Between Faculty, Senior Residents, Hospital Administrators, and the General Public? A Multi-Institutional Study

Author

Kempenich, Jason W., Willis, Ross E., Rakosi, Robert, Wiersch, John, and Schenarts, Paul Joseph

Abstract

Identify barriers to resident autonomy in today’s educational environment as perceived through 4 selected groups: senior surgical residents, teaching faculty, hospital administration, and the general public.

Published

2015

6. Embracing Errors in Simulation-Based Training: The Effect of Error Training on Retention and Transfer of Central Venous Catheter Skills

Author

Gardner, Aimee K., Abdelfattah, Kareem, Wiersch, John, Ahmed, Rami A., and Willis, Ross E.

Abstract

Error management training is an approach that encourages exposure to errors during initial skill acquisition so that learners can be equipped with important error identification, management, and metacognitive skills. The purpose of this study was to determine how an error-focused training program affected performance, retention, and transfer of central venous catheter (CVC) placement skills when compared with traditional training methodologies.

Published

2015

7. Pancreatic cell tracing, lineage tagging and targeted genetic manipulations in multiple cell types using pancreatic ductal infusion of adeno-associated viral vectors and/or cell-tagging dyes

Author

Xiao, Xiangwei, Guo, Ping, Prasadan, Krishna, Shiota, Chiyo, Peirish, Lauren, Fischbach, Shane, Song, Zewen, Gaffar, Iljana, Wiersch, John, El-Gohary, Yousef, Husain, Sohail Z, and Gittes, George K

Abstract

Genetic manipulations, with or without lineage tracing for specific pancreatic cell types, are very powerful tools for studying diabetes, pancreatitis and pancreatic cancer. Nevertheless, the use of Cre/loxP systems to conditionally activate or inactivate the expression of genes in a cell type– and/or temporal-specific manner is not applicable to cell tracing and/or gene manipulations in more than one lineage at a time. Here we report a technique that allows efficient delivery of dyes for cell tagging into the mouse pancreas through the duct system, and that also delivers viruses carrying transgenes or siRNA under a specific promoter. When this technique is applied in genetically modified mice, it enables the investigator to perform either double lineage tracing or cell lineage tracing combined with gene manipulation in a second lineage. The technique requires <40 min.

Published

2014

8. Renal blood flow and oxygenation drive nephron progenitor differentiation

Author

Rymer, Christopher, Paredes, Jose, Halt, Kimmo, Schaefer, Caitlin, Wiersch, John, Zhang, Guangfeng, Potoka, Douglas, Vainio, Seppo, Gittes, George K., Bates, Carlton M., and Sims-Lucas, Sunder

Abstract

During kidney development, the vasculature develops via both angiogenesis (branching from major vessels) and vasculogenesis (de novo vessel formation). The formation and perfusion of renal blood vessels are vastly understudied. In the present study, we investigated the regulatory role of renal blood flow and O2concentration on nephron progenitor differentiation during ontogeny. To elucidate the presence of blood flow, ultrasound-guided intracardiac microinjection was performed, and FITC-tagged tomato lectin was perfused through the embryo. Kidneys were costained for the vasculature, ureteric epithelium, nephron progenitors, and nephron structures. We also analyzed nephron differentiation in normoxia compared with hypoxia. At embryonic day 13.5(E13.5), the major vascular branches were perfused; however, smaller-caliber peripheral vessels remained unperfused. By E15.5, peripheral vessels started to be perfused as well as glomeruli. While the interior kidney vessels were perfused, the peripheral vessels (nephrogenic zone) remained unperfused. Directly adjacent and internal to the nephrogenic zone, we found differentiated nephron structures surrounded and infiltrated by perfused vessels. Furthermore, we determined that at low O2concentration, little nephron progenitor differentiation was observed; at higher O2concentrations, more differentiation of the nephron progenitors was induced. The formation of the developing renal vessels occurs before the onset of blood flow. Furthermore, renal blood flow and oxygenation are critical for nephron progenitor differentiation.

Published

2014

9. A simplified purification method for AAV variant by polyethylene glycol aqueous two-phase partitioning

Author

Guo, Ping, Xiao, Xiangwei, El-Gohary, Yousef, Paredes, Jose, Prasadan, Krishna, Shiota, Chiyo, Wiersch, John, Welsh, Carey, and Gittes, George K.

Abstract

Adeno-Associated Virus (AAV) has been widely used for in vivo study and preclinical therapy due to its ability to mediate long-term transgene expression, its lack of pathogenicity and low immunogenicity. It has been found that AAV has more than ten serotypes, which each transfect certain types of cells in the viral infected organ. Current methods for purification of different AAV serotypes utilize CsCl or Iodixanol ultrahigh speed density gradient centrifugation, which is expensive and time consuming. We recently developed a simplified method, PEG/(NH4)2SO4aqueous two phase partitioning, for purification of AAV serotype 2 and 8. The method does not require ultrahigh speed gradient centrifugation or chromatography. Here we further explore the simplified method for purification of other serotypes of AAV, serotype 6 and 9. This simplified method not only can be used to purify serotype 2 and 8, but also serotype 6 and 9, indicating that a variety of AAV serotypes can be purified by this method.

Published

2013