Your search keyword '"Pancoast, James R."' showing total 9 results

1. Exogenous GDF11, but not GDF8, reduces body weight and improves glucose homeostasis in mice.

Author

Walker, Ryan G., Barrandon, Ornella, Poggioli, Tommaso, Dagdeviren, Sezin, Carroll, Shannon H., Mills, Melanie J., Mendello, Kourtney R., Gomez, Yanet, Loffredo, Francesco S., Pancoast, James R., Macias-Trevino, Claudio, Marts, Colin, LeClair, Katherine B., Noh, Hye-Lim, Kim, Taekyoon, Banks, Alexander S., Kim, Jason K., Cohen, David E., Wagers, Amy J., and Melton, Douglas A.

Subjects

INSULIN resistance, BODY weight, RECOMBINANT proteins, PHENOTYPES, SKELETAL muscle

Abstract

Insulin resistance is associated with aging in mice and humans. We have previously shown that administration of recombinant GDF11 (rGDF11) to aged mice alters aging phenotypes in the brain, skeletal muscle, and heart. While the closely related protein GDF8 has a role in metabolism, limited data are available on the potential metabolic effects of GDF11 or GDF8 in aging. To determine the metabolic effects of these two ligands, we administered rGDF11 or rGDF8 protein to young or aged mice fed a standard chow diet, short-term high-fat diet (HFD), or long-term HFD. Under nearly all of these diet conditions, administration of exogenous rGDF11 reduced body weight by 3–17% and significantly improved glucose tolerance in aged mice fed a chow (~30% vs. saline) or HF (~50% vs. saline) diet and young mice fed a HFD (~30%). On the other hand, exogenous rGDF8 showed signifcantly lesser effect or no effect at all on glucose tolerance compared to rGDF11, consistent with data demonstrating that GFD11 is a more potent signaling ligand than GDF8. Collectively, our results show that administration of exogenous rGDF11, but not rGDF8, can reduce diet-induced weight gain and improve metabolic homeostasis. [ABSTRACT FROM AUTHOR]

Published

2020

2. Apolipoprotein E is a pancreatic extracellular factor that maintains mature β-cell gene expression.

Author

Mahmoud, Ahmed I., Galdos, Francisco X., Dinan, Katherine A., Jedrychowski, Mark P., Davis, Jeffrey C., Vujic, Ana, Rachmin, Inbal, Shigley, Christian, Pancoast, James R., Lee, Samuel, Hollister-Lock, Jennifer, MacGillivray, Catherine M., Gygi, Steven P., Melton, Douglas A., Weir, Gordon C., and Lee, Richard T.

Subjects

APOLIPOPROTEIN E, GENE expression, CELL physiology, EXTRACELLULAR space, CELL culture

Abstract

The in vivo microenvironment of tissues provides myriad unique signals to cells. Thus, following isolation, many cell types change in culture, often preserving some but not all of their in vivo characteristics in culture. At least some of the in vivo microenvironment may be mimicked by providing specific cues to cultured cells. Here, we show that after isolation and during maintenance in culture, adherent rat islets reduce expression of key β-cell transcription factors necessary for β-cell function and that soluble pancreatic decellularized matrix (DCM) can enhance β-cell gene expression. Following chromatographic fractionation of pancreatic DCM, we performed proteomics to identify soluble factors that can maintain β-cell stability and function. We identified Apolipoprotein E (ApoE) as an extracellular protein that significantly increased the expression of key β-cell genes. The ApoE effect on beta cells was mediated at least in part through the JAK/STAT signaling pathway. Together, these results reveal a role for ApoE as an extracellular factor that can maintain the mature β-cell gene expression profile. [ABSTRACT FROM AUTHOR]

Published

2018

3. Soluble interleukin-13ra1: a circulating regulator of glucose.

Author

Rachmin, Inbal, O'Meara, Caitlin C., Ricci-Blair, Elisabeth M., Yilin Feng, Christensen, Emily M., Duffy, Jeanne F., Zitting, Kirsi M., Czeisler, Charles A., Pancoast, James R., Cannon, Christopher P., O'Donoghue, Michelle L., Morrow, David A., and Lee, Richard T.

Subjects

INTERLEUKIN-13, GLUCOSE metabolism, RECOMBINANT proteins

Abstract

Soluble IL-13 receptor-a1, or sIL13ra1, is a soluble protein that binds to interleukin-13 (IL-13) that has been previously described in mice. The function of sIL13ra1 remains unclear, but it has been hypothesized to act as a decoy receptor for IL-13. Recent studies have identified a role for IL-13 in glucose metabolism, suggesting that a decoy receptor for IL-13 might increase circulating glucose levels. Here, we report that delivery of sIL13ra1 to mice by either gene transfer or recombinant protein decreases blood glucose levels. Surprisingly, the glucose-lowering effect of sIL13ra1 was preserved in mice lacking IL-13, demonstrating that IL-13 was not required for the effect. In contrast, deletion of IL-4 in mice eliminated the hypoglycemic effect of sIL13ra1. In humans, endogenous blood levels of IL13ra1 varied substantially, although there were no differences between diabetic and nondiabetic patients. There was no circadian variation of sIL13ra1 in normal human volunteers. Delivery of sIL13ra1 fused to a fragment crystallizable (Fc) domain provided sustained glucose lowering in mice on a high-fat diet, suggesting a potential therapeutic strategy. These data reveal sIL13ra1 as a circulating human protein with an unexpected role in glucose metabolism. [ABSTRACT FROM AUTHOR]

Published

2017

4. Growth Factor-Mediated Migration of Bone Marrow Progenitor Cells for Accelerated Scaffold Recruitment.

Author

Liebesny, Paul H., Byun, Sangwon, Hung, Han-Hwa, Pancoast, James R., Mroszczyk, Keri A., Young, Whitney T., Lee, Richard T., Frisbie, David D., Kisiday, John D., and Grodzinsky, Alan J.

Published

2016

5. Circulating Growth Differentiation Factor 11/8 Levels Decline With Age.

Author

Poggioli, Tommaso, Vujic, Ana, Peiguo Yang, Macias-Trevino, Claudio, Uygur, Aysu, Loffredo, Francesco S., Pancoast, James R., Miook Cho, Goldstein, Jill, Tandias, Rachel M., Gonzalez, Emilia, Walker, Ryan G., Thompson, Thomas B., Wagers, Amy J., Yick W. Fong, and Richard T. Lee

Published

2016

6. Heart Failure With Preserved Ejection Fraction.

Author

Loffredo, Francesco S., Nikolova, Andriana P., Pancoast, James R., and Lee, Richard T.

Published

2014

7. Targeted Delivery to Cartilage Is Critical for In Vivo Efficacy of Insulin-like Growth Factor 1 in a Rat Model of Osteoarthritis.

Author

Loffredo, Francesco S., Pancoast, James R., Cai, Lei, Vannelli, Todd, Dong, Jesse Z., Lee, Richard T., and Patwari, Parth

Subjects

OSTEOARTHRITIS treatment, CARTILAGE physiology, ACADEMIC medical centers, ANIMAL experimentation, BIOLOGICAL models, GROWTH factors, OSTEOARTHRITIS, RATS, RESEARCH funding, STATISTICS, T-test (Statistics), WESTERN immunoblotting, DATA analysis

Abstract

Objective Acute articular injuries lead to an increased risk of progressive joint damage and osteoarthritis (OA), and no therapies are currently available to repair or protect the injured joint tissue. Intraarticular delivery of therapeutic proteins has been limited by their rapid clearance from the joint space and lack of retention within cartilage. The aim of this study was to test whether targeted delivery to cartilage by fusion with a heparin-binding domain would be sufficient to prolong the in vivo function of the insulin-like growth factor 1 (IGF-1). Methods We produced a humanized and optimized recombinant HB-IGF-1 fusion protein. By injecting HB-IGF-1, IGF-1, or saline alone into the knee joints of adult Lewis rats, we tested whether fusion with a heparin-binding domain 1) altered the kinetics of retention in joint tissues, 2) prolonged functional stimulation as measured by radiolabel incorporation, and 3) enhanced efficacy in a rat model of surgically induced OA, using weekly injections. Results Fusion of heparin-binding domain with IGF-1 prolonged retention in articular and meniscal cartilage from <1 day to 8 days after injection. Unmodified IGF-1 had no functional effect 2 days after injection, whereas HB-IGF-1 stimulated meniscal cartilage at least 4 days after injection. HB-IGF-1, but not IGF-1, significantly slowed cartilage damage in a rat model of OA. Conclusion Heparin-binding domain fusions can transform rapidly cleared proteins into potential intraarticular therapies by targeting them to cartilage. [ABSTRACT FROM AUTHOR]

Published

2014

8. Microbead-based biomimetic synthetic neighbors enhance survival and function of rat pancreatic β-cells.

Author

Wei Li, Samuel Lee, Minglin Ma, Soo Min Kim, Guye, Patrick, Pancoast, James R., Anderson, Daniel G., Weiss, Ron, Lee, Richard T., and Hammond, Paula T.

Subjects

BIOMIMETIC chemicals, LABORATORY rats, CELL culture, CELL physiology, POLYMERS

Abstract

mass and lose insulin-producing ability in vitro, likely due to insufficient cell-cell and cell-extracellular matrix (ECM) interactions as β-cells lose their native microenvironment. Herein, we built an ex-vivo cell microenvironment by culturing primary β-cells in direct contact with 'synthetic neighbors', cell-sized soft polymer microbeads that were modified with cell-cell signaling factors as well as components from pancreatic-tissue-specific ECMs. This biomimetic 3D microenvironment was able to promote native cell-cell and cell-ECM interactions. We obtained sustained maintenance of β-cell function in vitro enhanced cell viability from the few days usually observed in 2D culture to periods exceeding three weeks, with enhanced β-cell stability and insulin production. Our approach can be extended to create a general 3D culture platform for other cell types. [ABSTRACT FROM AUTHOR]

Published

2013

9. Keep PNUTS in Your Heart.

Author

Loffredo, Francesco S., Pancoast, James R., and Lee, Richard T.

Published

2013