Your search keyword '"Jenny Lu"' showing total 5 results

1. A medium-chain fatty acid analogue prevents hepatosteatosis and decreases inflammatory lipid metabolites in a murine model of parenteral nutrition-induced hepatosteatosis

Author

Bennet S. Cho, Scott C. Fligor, Gillian L. Fell, Jordan D. Secor, Savas T. Tsikis, Amy Pan, Lumeng J. Yu, Victoria H. Ko, Duy T. Dao, Lorenzo Anez-Bustillos, Thomas I. Hirsch, Jenny Lund, Arild C. Rustan, David A. Fraser, Kathleen M. Gura, and Mark Puder

Subjects

Medicine, Science

Published

2023

2. Differential, Phosphorylation Dependent Trafficking of AQP2 in LLC-PK1 Cells

Author

Dennis Brown, Hua A. Jenny Lu, William L. Rice, Ying Chen, Toshiyuki Matsuzaki, and Yan Zhang

Subjects

Anatomy and Physiology, Swine, Physiology, 030232 urology & nephrology, lcsh:Medicine, urologic and male genital diseases, Biochemistry, Cell membrane, 0302 clinical medicine, Molecular Cell Biology, Serine, Phosphorylation, lcsh:Science, Internalization, media_common, 0303 health sciences, Microscopy, Confocal, Multidisciplinary, biology, Physics, Endocytosis, Signaling Cascades, Cell biology, Cold Temperature, Protein Transport, medicine.anatomical_structure, Aquaporin 2, symbols, Medicine, trans-Golgi Network, Research Article, Signal Transduction, media_common.quotation_subject, Biophysics, Clathrin, Exocytosis, 03 medical and health sciences, symbols.namesake, medicine, Animals, HSP70 Heat-Shock Proteins, Biology, Molecular Biology, 030304 developmental biology, Cell Nucleus, urogenital system, Cell Membrane, lcsh:R, HSC70 Heat-Shock Proteins, Proteins, Renal System, Golgi apparatus, Mutation, biology.protein, LLC-PK1 Cells, lcsh:Q

Abstract

The kidney maintains water homeostasis by modulating aquaporin 2 (AQP2) on the plasma membrane of collecting duct principal cells in response to vasopressin (VP). VP mediated phosphorylation of AQP2 at serine 256 is critical for this effect. However, the role of phosphorylation of other serine residues in the AQP2 C-terminus is less well understood. Here, we examined the effect of phosphorylation of S256, S261 and S269 on AQP2 trafficking and association with recycling pathway markers. We used LLC-PK1 cells expressing AQP2(S-D) or (S-A) phospho mutants and a 20°C cold block, which allows endocytosis to continue, but prevents protein exit from the trans Golgi network (TGN), inducing formation of a perinuclear AQP2 patch. AQP2-S256D persists on the plasma membrane during cold block, while wild type AQP2, AQP2-S256A, S261A, S269A and S269D are internalized and accumulate in the patch. Development of this patch, a measure of AQP2 internalization, was most rapid with AQP2-S256A, and slowest with S261A and S269D. AQP2-S269D exhibited a biphasic internalization profile with a significant amount not internalized until 150 minutes of cold block. After rewarming to 37°C, wt AQP2, AQP2-S261A and AQP2-S269D rapidly redistributed throughout the cytoplasm within 20 minutes, whereas AQP2-S256A dissipated more slowly. Colocalization of AQP2 mutants with several key vesicular markers including clathrin, HSP70/HSC70, EEA, GM130 and Rab11 revealed no major differences. Overall, our data provide evidence supporting the role of S256 and S269 in the maintenance of AQP2 at the cell surface and reveal the dynamics of internalization and recycling of differentially phosphorylated AQP2 in cell culture.

Published

2012

3. Exercise in vivo marks human myotubes in vitro: Training-induced increase in lipid metabolism.

Author

Jenny Lund, Arild C Rustan, Nils G Løvsletten, Jonathan M Mudry, Torgrim M Langleite, Yuan Z Feng, Camilla Stensrud, Mari G Brubak, Christian A Drevon, Kåre I Birkeland, Kristoffer J Kolnes, Egil I Johansen, Daniel S Tangen, Hans K Stadheim, Hanne L Gulseth, Anna Krook, Eili T Kase, Jørgen Jensen, and G Hege Thoresen

Subjects

Medicine, Science

Abstract

BACKGROUND AND AIMS:Physical activity has preventive as well as therapeutic benefits for overweight subjects. In this study we aimed to examine effects of in vivo exercise on in vitro metabolic adaptations by studying energy metabolism in cultured myotubes isolated from biopsies taken before and after 12 weeks of extensive endurance and strength training, from healthy sedentary normal weight and overweight men. METHODS:Healthy sedentary men, aged 40-62 years, with normal weight (body mass index (BMI) < 25 kg/m2) or overweight (BMI ≥ 25 kg/m2) were included. Fatty acid and glucose metabolism were studied in myotubes using [14C]oleic acid and [14C]glucose, respectively. Gene and protein expressions, as well as DNA methylation were measured for selected genes. RESULTS:The 12-week training intervention improved endurance, strength and insulin sensitivity in vivo, and reduced the participants' body weight. Biopsy-derived cultured human myotubes after exercise showed increased total cellular oleic acid uptake (30%), oxidation (46%) and lipid accumulation (34%), as well as increased fractional glucose oxidation (14%) compared to cultures established prior to exercise. Most of these exercise-induced increases were significant in the overweight group, whereas the normal weight group showed no change in oleic acid or glucose metabolism. CONCLUSIONS:12 weeks of combined endurance and strength training promoted increased lipid and glucose metabolism in biopsy-derived cultured human myotubes, showing that training in vivo are able to induce changes in human myotubes that are discernible in vitro.

Published

2017

4. A novel animal model of Borrelia recurrentis louse-borne relapsing fever borreliosis using immunodeficient mice.

Author

Christer Larsson, Jenny Lundqvist, Nico van Rooijen, and Sven Bergström

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Louse-borne relapsing fever (LBRF) borreliosis is caused by Borrelia recurrentis, and it is a deadly although treatable disease that is endemic in the Horn of Africa but has epidemic potential. Research on LBRF has been severely hampered because successful infection with B. recurrentis has been achieved only in primates (i.e., not in other laboratory or domestic animals). Here, we present the first non-primate animal model of LBRF, using SCID (-B, -T cells) and SCID BEIGE (-B, -T, -NK cells) immunocompromised mice. These animals were infected with B. recurrentis A11 or A17, or with B. duttonii 1120K3 as controls. B. recurrentis caused a relatively mild but persistent infection in SCID and SCID BEIGE mice, but did not proliferate in NUDE (-T) and BALB/c (wild-type) mice. B. duttonii was infectious but not lethal in all animals. These findings demonstrate that the immune response can limit relapsing fever even in the absence of humoral defense mechanisms. To study the significance of phagocytic cells in this context, we induced systemic depletion of such cells in the experimental mice by injecting them with clodronate liposomes, which resulted in uncontrolled B. duttonii growth and a one-hundred-fold increase in B. recurrentis titers in blood. This observation highlights the role of macrophages and other phagocytes in controlling relapsing fever infection. B. recurrentis evolved from B. duttonii to become a primate-specific pathogen that has lost the ability to infect immunocompetent rodents, probably through genetic degeneration. Here, we describe a novel animal model of B. recurrentis based on B- and T-cell-deficient mice, which we believe will be very valuable in future research on LBRF. Our study also reveals the importance of B-cells and phagocytes in controlling relapsing fever infection.

Published

2009

5. Polarized Trafficking of AQP2 Revealed in Three Dimensional Epithelial Culture.

Author

William L Rice, Wei Li, Fahmy Mamuya, Mary McKee, Teodor G Păunescu, and Hua A Jenny Lu

Subjects

Medicine, Science

Abstract

In renal collecting duct (CD) principal cells (PCs), vasopressin (VP) acts through its receptor, V2R, to increase intracellular cAMP leading to phosphorylation and apical membrane accumulation of the water channel aquaporin 2 (AQP2). The trafficking and function of basolaterally located AQP2 is, however, poorly understood. Here we report the successful application of a 3-dimensional Madin-Darby canine kidney (MDCK) epithelial model to study polarized AQP2 trafficking. This model recapitulates the luminal architecture of the CD and bi-polarized distribution of AQP2 as seen in kidney. Without stimulation, AQP2 is located in the subapical and basolateral regions. Treatment with VP, forskolin (FK), or 8-(4-Chlorophenylthio)-2'-O-methyladenosine 3',5'-cyclic monophosphate monosodium hydrate (CPT-cAMP) leads to translocation of cytosolic AQP2 to the apical membrane, but not to the basolateral membrane. Treating cells with methyl-β-cyclodextrin (mβCD) to acutely block endocytosis causes accumulation of AQP2 on the basolateral membrane, but not on the apical membrane. Our data suggest that AQP2 may traffic differently at the apical and basolateral domains in this 3D epithelial model. In addition, application of a panel of phosphorylation specific AQP2 antibodies reveals the polarized, subcellular localization of differentially phosphorylated AQP2 at S256, S261, S264 and S269 in the 3D culture model, which is consistent with observations made in the CDs of VP treated animals, suggesting the preservation of phosphorylation dependent regulatory mechanism of AQP2 trafficking in this model. Therefore we have established a 3D culture model for the study of trafficking and regulation of both the apical and basolaterally targeted AQP2. The new model will enable further characterization of the complex mechanism regulating bi-polarized trafficking of AQP2 in vitro.

Published

2015