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2. Obesity and dyslipidemia are associated with partially reversible modifications to DNA hydroxymethylation of apoptosis- and senescence-related genes in swine adipose-derived mesenchymal stem/stromal cells

Author

Glasstetter, Logan M., Oderinde, Tomiwa S., Mirchandani, Mohit, Rajagopalan, Kamalnath Sankaran, Barsom, Samer H., Thaler, Roman, Siddiqi, Sarosh, Zhu, Xiang-Yang, Tang, Hui, Jordan, Kyra L., Saadiq, Ishran M., van Wijnen, Andre J., Eirin, Alfonso, and Lerman, Lilach O.

Published
2023
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7. Mesenchymal Stem/Stromal Cells Reverse Adipose Tissue Inflammation in Pigs with Metabolic Syndrome and Renovascular Hypertension.

Author

Krueger, Alexander B. C., Zhu, Xiangyang, Siddiqi, Sarosh, Whitehead, Emma C., Tang, Hui, Jordan, Kyra L., Lerman, Amir, and Lerman, Lilach O.

Subjects
MESENCHYMAL stem cells, RENOVASCULAR hypertension, RENAL artery, ADIPOSE tissues, ARTERIAL stenosis
Abstract

Metabolic syndrome (MetS) is associated with low-grade inflammation, which can be exacerbated by renal artery stenosis (RAS) and renovascular hypertension, potentially worsening outcomes through pro-inflammatory cytokines. This study investigated whether mesenchymal stem/stromal cells (MSCs) could reduce fat inflammation in pigs with MetS and RAS. Twenty-four pigs were divided into Lean (control), MetS, MetS + RAS, and MetS + RAS + MSCs. In the MSC-treated group, autologous adipose-derived MSCs (107 cells) were injected into the renal artery six weeks after RAS induction. After four weeks, fat volumes and inflammatory markers were assessed. MSC treatment reduced levels of pro-inflammatory cytokines (MCP-1, TNF-a, IL-6) in the renal vein blood and in perirenal fat. The MSCs also decreased fat fibrosis, restored adipocyte size, and altered adipogenesis-related gene expression, particularly in the perirenal fat. These effects were less pronounced in subcutaneous fat. The MSC therapy attenuated fat inflammation and improved metabolic outcomes in pigs with MetS + RAS, suggesting that adipose-derived MSCs may offer a promising therapeutic approach for metabolic disorders. [ABSTRACT FROM AUTHOR]

Published
2025
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9. Senolytics decrease senescent cells in humans: Preliminary report from a clinical trial of Dasatinib plus Quercetin in individuals with diabetic kidney disease

Author

Hickson, LaTonya J., Langhi Prata, Larissa G.P., Bobart, Shane A., Evans, Tamara K., Giorgadze, Nino, Hashmi, Shahrukh K., Herrmann, Sandra M., Jensen, Michael D., Jia, Qingyi, Jordan, Kyra L., Kellogg, Todd A., Khosla, Sundeep, Koerber, Daniel M., Lagnado, Anthony B., Lawson, Donna K., LeBrasseur, Nathan K., Lerman, Lilach O., McDonald, Kathleen M., McKenzie, Travis J., Passos, João F., Pignolo, Robert J., Pirtskhalava, Tamar, Saadiq, Ishran M., Schaefer, Kalli K., Textor, Stephen C., Victorelli, Stella G., Volkman, Tammie L., Xue, Ailing, Wentworth, Mark A., Wissler Gerdes, Erin O., Zhu, Yi, Tchkonia, Tamara, and Kirkland, James L.

Published
2019
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10. Human liver derived mesenchymal stromal cells ameliorate murine ischemia-induced inflammation through macrophage polarization.

Author

Yun Liang, Ozdogan, Elif, Hansen, Michael J., Hui Tang, Saadiq, Ishran, Jordan, Kyra L., Krier, James D., Gandhi, Deep B., Grande, Joseph P., Lerman, Lilach O., and Taner, Timucin

Subjects
KILLER cells, RENAL artery, ARTERIAL stenosis, STROMAL cells, CELL physiology
Abstract

Introduction: The immunomodulatory properties of mesenchymal stromal cells (MSC) have been well-characterized in in-vitro and in-vivo models. We have previously shown that liver MSC (L-MSC) are superior inhibitors of T-cell activation/proliferation, NK cell cytolytic function, and macrophage activation compared to adipose (A-MSC) and bone marrow MSC (BM-MSC) in-vitro. Method: To test these observations in-vivo, we infused these types of MSC into mice with unilateral renal artery stenosis (RAS), an established model of kidney inflammation. Unilateral RAS was induced via laparotomy in 11-week-old, male 129-S1 mice under general anesthesia. Control mice had sham operations. Human L-MSC, AMSC, and BM-MSC (5x105 cells each) or PBS vehicle were injected intra-arterially 2 weeks after surgery. Kidney morphology was studied 2 weeks after infusion using micro-MRI imaging. Renal inflammation, apoptosis, fibrosis, and MSC retention were studied ex-vivo utilizing western blot, immunofluorescence, and immunohistological analyses. Results: The stenotic kidney volume was smaller in all RAS mice, confirming significant injury, and was improved by infusion of all MSC types. All MSC-infused groups had lower levels of plasma renin and proteinuria compared to untreated RAS. Serum creatinine improved in micetreated with BM- and L-MSC. All types of MSC located to and were retained within the stenotic kidneys, but L-MSC retention was significantly higher than A- and BM-MSC. While all groups of MSC-treated mice displayed reduced overall inflammation and macrophage counts, L-MSC showed superior potency in-vivo at localizing to the site of inflammation and inducing M2 (reparative) macrophage polarization to reduce inflammatory changes. Discussion: These in-vivo findings extend our in-vitro studies and suggest that LMSC possess unique anti-inflammatory properties that may play a role in liverinduced tolerance and lend further support to their use as therapeutic agents for diseases with underlying inflammatory pathophysiology. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Additional file 9 of Obesity and dyslipidemia are associated with partially reversible modifications to DNA hydroxymethylation of apoptosis- and senescence-related genes in swine adipose-derived mesenchymal stem/stromal cells

Author

Glasstetter, Logan M., Oderinde, Tomiwa S., Mirchandani, Mohit, Rajagopalan, Kamalnath Sankaran, Barsom, Samer H., Thaler, Roman, Siddiqi, Sarosh, Zhu, Xiang-Yang, Tang, Hui, Jordan, Kyra L., Saadiq, Ishran M., van Wijnen, Andre J., Eirin, Alfonso, and Lerman, Lilach O.

Abstract

Additional file 9: Figure S8. Fluorescence microscopy TUNEL images in swine MSCs treated with a pro-apoptotic agent. Apoptosis was evaluated by terminal deoxynucleotidyl transferase dUTP nick-end-labeling assay in swine Lean- and Obese-MSCs treated either with staurosporine in DMSO at 20 nM for 24 h or with DMSO only. Representative images of DAPI-stained nuclei, TUNEL-labeled nuclei, and the merged channels are shown. Obese-MSCs showed attenuated development of apoptosis in response to staurosporine.

Published
2023
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21. Additional file 7 of Obesity and dyslipidemia are associated with partially reversible modifications to DNA hydroxymethylation of apoptosis- and senescence-related genes in swine adipose-derived mesenchymal stem/stromal cells

Author

Glasstetter, Logan M., Oderinde, Tomiwa S., Mirchandani, Mohit, Rajagopalan, Kamalnath Sankaran, Barsom, Samer H., Thaler, Roman, Siddiqi, Sarosh, Zhu, Xiang-Yang, Tang, Hui, Jordan, Kyra L., Saadiq, Ishran M., van Wijnen, Andre J., Eirin, Alfonso, and Lerman, Lilach O.

Abstract

Additional file 7: Figure S6. Apoptosis/cell death assay of swine Obese- and Lean-MSCs. Representative flow cytometry scatterplots of MSC apoptosis/cell death tested using Annexin-V and Sytox for swine A Lean- and B Obese-MSCs. The red panel represents live cells, the orange panel represents dead cells, and the yellow panel represents apoptotic cells.

Published
2023
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22. Additional file 3 of Obesity and dyslipidemia are associated with partially reversible modifications to DNA hydroxymethylation of apoptosis- and senescence-related genes in swine adipose-derived mesenchymal stem/stromal cells

Author

Glasstetter, Logan M., Oderinde, Tomiwa S., Mirchandani, Mohit, Rajagopalan, Kamalnath Sankaran, Barsom, Samer H., Thaler, Roman, Siddiqi, Sarosh, Zhu, Xiang-Yang, Tang, Hui, Jordan, Kyra L., Saadiq, Ishran M., van Wijnen, Andre J., Eirin, Alfonso, and Lerman, Lilach O.

Abstract

Additional file 3: Figure S2. Protein expression of differentially hydroxymethylated candidate genes with functions related to apoptosis, senescence, or cell proliferation. A Protein levels were evaluated by Western blotting in swine Lean- and Obese-MSCs, n = 6 each; B quantification revealed decreased levels of the apoptosis-related genes CHOP/DDIT3 and CASP14 in Obese-MSCs compared with Lean-MSCs. The rightmost lane is excluded from quantification of the Western blot for CASP14, due to an obstructive artifact. Displayed Western blot images have been cropped, and group annotations are shown by white or gray horizontal bars above the images. Full-length blots/gels are presented in Figure S3. *p-value ≤ 0.05 vs. Lean-MSCs.

Published
2023
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23. Additional file 12 of Obesity and dyslipidemia are associated with partially reversible modifications to DNA hydroxymethylation of apoptosis- and senescence-related genes in swine adipose-derived mesenchymal stem/stromal cells

Author

Glasstetter, Logan M., Oderinde, Tomiwa S., Mirchandani, Mohit, Rajagopalan, Kamalnath Sankaran, Barsom, Samer H., Thaler, Roman, Siddiqi, Sarosh, Zhu, Xiang-Yang, Tang, Hui, Jordan, Kyra L., Saadiq, Ishran M., van Wijnen, Andre J., Eirin, Alfonso, and Lerman, Lilach O.

Abstract

Additional file 12: Figure S11. Obesity-driven dysregulation of 5hmC levels on genes related to cell population proliferation in human MSCs. A Volcano plot showing differential 5hmC levels in human Obese- versus Lean-MSCs for genes filtered by the GO term for cell population proliferation. For a given gene, differential 5hmC levels entail p-value ≤ 0.05 and fold change ≥ 1.4 or ≤ 0.7. Genes with high or low 5hmC levels in Obese-MSCs versus Lean-MSCs are represented with red or blue markers, respectively. B Heat maps of genes filtered by cell population proliferation showing lower or higher 5hmC levels in human Obese-MSCs versus human Lean-MSCs.

Published
2023
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24. Additional file 5 of Obesity and dyslipidemia are associated with partially reversible modifications to DNA hydroxymethylation of apoptosis- and senescence-related genes in swine adipose-derived mesenchymal stem/stromal cells

Author

Glasstetter, Logan M., Oderinde, Tomiwa S., Mirchandani, Mohit, Rajagopalan, Kamalnath Sankaran, Barsom, Samer H., Thaler, Roman, Siddiqi, Sarosh, Zhu, Xiang-Yang, Tang, Hui, Jordan, Kyra L., Saadiq, Ishran M., van Wijnen, Andre J., Eirin, Alfonso, and Lerman, Lilach O.

Abstract

Additional file 5: Figure S4. Obesity associates with dysregulated 5hmC levels in swine MSCs on genes related to cell population proliferation. A Volcano plot showing differential 5hmC levels in Obese- versus Lean-MSCs for genes filtered by the Gene Ontology term for cell population proliferation. For a given gene, differential 5hmC levels entail p-value ≤ 0.05 and fold change (Obese-MSCs/Lean-MSCs) ≥ 1.4 or ≤ 0.7. Genes with high or low 5hmC levels in Obese-MSCs versus Lean-MSCs are represented with red or blue markers, respectively. High 5hmC genes with undetectable 5hmC levels in Lean-MSCs are presented as outliers and labeled as red triangles. B Heat maps of genes filtered by cell population proliferation showing higher or lower 5hmC levels in Obese-MSCs versus Lean-MSCs.

Published
2023
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25. Additional file 4 of Obesity and dyslipidemia are associated with partially reversible modifications to DNA hydroxymethylation of apoptosis- and senescence-related genes in swine adipose-derived mesenchymal stem/stromal cells

Author

Glasstetter, Logan M., Oderinde, Tomiwa S., Mirchandani, Mohit, Rajagopalan, Kamalnath Sankaran, Barsom, Samer H., Thaler, Roman, Siddiqi, Sarosh, Zhu, Xiang-Yang, Tang, Hui, Jordan, Kyra L., Saadiq, Ishran M., van Wijnen, Andre J., Eirin, Alfonso, and Lerman, Lilach O.

Abstract

Additional file 4: Figure S3. Uncropped full-length Western blot images for swine Lean- and Obese-MSCs. Proteins levels of A CDKN2C and B CHOP/DDIT3 were normalized to C GAPDH loading control, while proteins levels of D CASP14, E TERT, and F MAPK10 were normalized to G GAPDH loading control. Original, unprocessed images of gels/blots are shown. All cropping margins for Figure S2 are marked with dashed blue lines, and group annotations are shown by white or gray horizontal bars above the images.

Published
2023
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26. Additional file 8 of Obesity and dyslipidemia are associated with partially reversible modifications to DNA hydroxymethylation of apoptosis- and senescence-related genes in swine adipose-derived mesenchymal stem/stromal cells

Author

Glasstetter, Logan M., Oderinde, Tomiwa S., Mirchandani, Mohit, Rajagopalan, Kamalnath Sankaran, Barsom, Samer H., Thaler, Roman, Siddiqi, Sarosh, Zhu, Xiang-Yang, Tang, Hui, Jordan, Kyra L., Saadiq, Ishran M., van Wijnen, Andre J., Eirin, Alfonso, and Lerman, Lilach O.

Abstract

Additional file 8: Figure S7. Lower rates of cell death in swine Obese-MSCs. A The percentage of apoptotic cells, determined by flow cytometry gated on Annexin-V+ and Sytox–, was not significantly different between swine Obese- and Lean-MSCs. B The percentage of dead cells, determined by flow cytometry gated on Annexin-V+ and Sytox+, was lower in Obese-MSCs compared with Lean-MSCs. C The percentage of live cells, determined by flow cytometry gated on Annexin-V− and Sytox–, was higher in Obese-MSCs compared with Lean-MSCs. n = 6 per group; *p-value = 0.0022 vs. Lean-MSCs.

Published
2023
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27. Additional file 6 of Obesity and dyslipidemia are associated with partially reversible modifications to DNA hydroxymethylation of apoptosis- and senescence-related genes in swine adipose-derived mesenchymal stem/stromal cells

Author

Glasstetter, Logan M., Oderinde, Tomiwa S., Mirchandani, Mohit, Rajagopalan, Kamalnath Sankaran, Barsom, Samer H., Thaler, Roman, Siddiqi, Sarosh, Zhu, Xiang-Yang, Tang, Hui, Jordan, Kyra L., Saadiq, Ishran M., van Wijnen, Andre J., Eirin, Alfonso, and Lerman, Lilach O.

Abstract

Additional file 6: Figure S5. Additional cell proliferation studies on swine Obese- and Lean-MSCs. Percentage cellular positivity for A PCNA or B Ki67, determined by immunofluorescent staining and fluorescence microscopy, did not differ in Obese- versus Lean-MSCs. PCNA: p-value = 0.66, Lean-MSCs: n = 6, Obese-MSCs: n = 5; Ki67: p-value = 0.89, n = 6 per group. C MTS assay showed decreased background-corrected absorbance at 490 nm in Obese-MSCs compared with Lean-MSCs, n = 6 per group; means of duplicate or triplicate measurements. *p-value = 0.0087 vs. Lean-MSCs.

Published
2023
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28. Additional file 2 of Obesity and dyslipidemia are associated with partially reversible modifications to DNA hydroxymethylation of apoptosis- and senescence-related genes in swine adipose-derived mesenchymal stem/stromal cells

Author

Glasstetter, Logan M., Oderinde, Tomiwa S., Mirchandani, Mohit, Rajagopalan, Kamalnath Sankaran, Barsom, Samer H., Thaler, Roman, Siddiqi, Sarosh, Zhu, Xiang-Yang, Tang, Hui, Jordan, Kyra L., Saadiq, Ishran M., van Wijnen, Andre J., Eirin, Alfonso, and Lerman, Lilach O.

Abstract

Additional file 2: Figure S1. Tri-lineage differentiation of swine Obese and Lean-MSCs. 16 weeks of diet-induced obesity skews the tri-lineage differentiation potential of swine MSCs toward adipocytes (FABP4, red; 20X magnification) and osteocytes (osteocalcin, red; 20X magnification) and away from chondrocytes (aggrecan, red; 40X magnification).

Published
2023
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30. Autologous Extracellular Vesicles Attenuate Cardiac Injury in Experimental Atherosclerotic Renovascular Disease More Effectively Than Their Parent Mesenchymal Stem/Stromal Cells

Author

Hong, Siting, primary, Zhu, Xiang-Yang, additional, Jiang, Yamei, additional, Zhang, Lei, additional, Tang, Hui, additional, Jordan, Kyra L., additional, Saadiq, Ishran M., additional, Huang, Weijun, additional, Lerman, Amir, additional, Eirin, Alfonso, additional, and Lerman, Lilach O., additional

Published
2022
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32. Effect of Hypoxia Preconditioning on the Regenerative Capacity of Adipose Tissue Derived Mesenchymal Stem Cells in a Model of Renal Artery Stenosis

Author

Farooqui, Naba, primary, Mohan, Arjunmohan, additional, Isik, Busra, additional, Goksu, Busra B, additional, Thaler, Roman, additional, Zhu, Xiang Yang, additional, Krier, James D, additional, Saadiq, Ishran M, additional, Ferguson, Christopher M, additional, Jordan, Kyra L, additional, Tang, Hui, additional, Textor, Stephen C, additional, Hickson, La Tonya J, additional, van Wijnen, Andre J, additional, Eirin, Alfonso, additional, Lerman, Lilach O, additional, and Herrmann, Sandra M, additional

Published
2022
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33. IL-10 partly mediates the ability of MSC-derived extracellular vesicles to attenuate myocardial damage in experimental metabolic renovascular hypertension

Author

Jiang, Yamei, primary, Hong, Siting, additional, Zhu, Xiangyang, additional, Zhang, Lei, additional, Tang, Hui, additional, Jordan, Kyra L., additional, Saadiq, Ishran M., additional, Huang, Weijun, additional, Lerman, Amir, additional, Eirin, Alfonso, additional, and Lerman, Lilach O., additional

Published
2022
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36. Obesity blunts amelioration of cardiac hypertrophy and fibrosis by human mesenchymal stem/stromal cell-derived extracellular vesicles.

Author

Siting Hong, Weijun Huang, Xiangyang Zhu, Hui Tang, Krier, James D., Li Xing, Bo Lu, Gandhi, Deep, Jordan, Kyra L., Saadiq, Ishran M., Lerman, Amir, Eirin, Alfonso, and Lerman, Lilach O.

Subjects
CARDIAC hypertrophy, EXTRACELLULAR vesicles, HEART fibrosis, RENOVASCULAR hypertension, BLOOD pressure, EPIDURAL injections
Abstract

Renovascular hypertension (RVH) can induce cardiac damage that is reversible using adipose tissue-derived mesenchymal stromal/stem cells (A-MSCs). However, A-MSCs isolated from patients with obesity are less effective than lean-A-MSC in blunting hypertensive cardiomyopathy in mice with RVH. We tested the hypothesis that this impairment extends to their obese A-MSCextracellular vesicles (EVs) progeny. MSCs were harvested from the subcutaneous fat of obese and lean human subjects, and their EVs were collected and injected into the aorta of mice 2 wk after renal artery stenosis or sham surgery. Cardiac left ventricular (LV) function was studied with MRI 2 wk later, and myocardial tissue ex vivo. Blood pressure, LV myocardial wall thickness, mass, and fibrosis that were elevated in RVH mice were suppressed only by lean EVs. Hence, human A-MSC-derived lean EVs are more effective than obese EVs in blunting hypertensive cardiac injury in RVH mice. These observations highlight impaired paracrine repair potency of endogenous MSCs in patients with obesity. NEW & NOTEWORTHY Injection of A-MSC-derived EVs harvested from patients who are lean can resolve myocardial injury in mice with experimental renovascular hypertension more effectively than A-MSC-derived EVs from patients with obesity. These observations underscore and might have important ramifications for the self-healing capacity of patients with obesity and for the use of autologous EVs as a regenerative tool. [ABSTRACT FROM AUTHOR]

Published
2023
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39. Renal Ischemia Induces Epigenetic Changes in Apoptotic, Proteolytic, and Mitochondrial Genes in Swine Scattered Tubular-like Cells

Author

Rajagopalan, Kamalnath S., primary, Glasstetter, Logan M., additional, Zhu, Xiang-Yang, additional, Thaler, Roman, additional, Tang, Hui, additional, Jordan, Kyra L., additional, Saadiq, Ishran M., additional, Herrmann, Sandra M., additional, Chade, Alejandro R., additional, Irazabal, Maria V., additional, Lerman, Lilach O., additional, and Eirin, Alfonso, additional

Published
2022
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40. Microvascular remodeling and altered angiogenic signaling in human kidneys distal to occlusive atherosclerotic renal artery stenosis

Author

Klomjit, Nattawat, primary, Zhu, Xiang-Yang, additional, Eirin, Alfonso, additional, Pawar, Aditya S, additional, Conley, Sabena M, additional, Puranik, Amrutesh S, additional, Ferguson, Christopher M, additional, Kim, Seo Rin, additional, Tang, Hui, additional, Jordan, Kyra L, additional, Saadiq, Ishran M, additional, Lerman, Amir, additional, Grande, Joseph P, additional, Textor, Stephen C, additional, and Lerman, Lilach O, additional

Published
2022
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41. Metabolic Syndrome Induces Epigenetic Alterations in Mitochondria-Related Genes in Swine Mesenchymal Stem Cells.

Author

Rajagopalan, Kamalnath S., Kazeminia, Sara, Glasstetter, Logan M., Farahani, Rahele A., Zhu, Xiang-Yang, Tang, Hui, Jordan, Kyra L., Chade, Alejandro R., Lerman, Amir, Lerman, Lilach O., and Eirin, Alfonso

Subjects
MESENCHYMAL stem cells, METABOLIC syndrome, EPIGENETICS, CARDIOVASCULAR diseases risk factors, SWINE, IMMUNOPRECIPITATION, EPIGENOMICS
Abstract

Autologous mesenchymal stem/stromal cells (MSCs) have demonstrated important therapeutic effects in several diseases. Cardiovascular risk factors may impair MSC mitochondrial structure and function, but the underlying mechanisms remain unknown. We hypothesized that metabolic syndrome (MetS) induces epigenetic alterations in mitochondria-related genes in swine MSCs. Pigs were fed a Lean or MetS diet (n = 6 each) for 16 weeks. MSCs were collected from subcutaneous abdominal fat, and DNA hydroxymethylation (5 hmC) profiles of mitochondria-related genes (MitoCarta-2.0) were analyzed by hydroxymethylated DNA immunoprecipitation and next-generation sequencing (hMeDIP-seq) in Lean- and MetS-MSCs untreated or treated with the epigenetic modulator vitamin (Vit)-C (n = 3 each). Functional analysis of genes with differential 5 hmC regions was performed using DAVID6.8. Mitochondrial structure (electron microscopy), oxidative stress, and membrane potential were assessed. hMeDIP-seq identified 172 peaks (associated with 103 mitochondrial genes) with higher and 416 peaks (associated with 165 mitochondrial genes) with lower 5 hmC levels in MetS-MSCs versus Lean-MSCs (≥2-fold, p < 0.05). Genes with higher 5 hmC levels in MetS + MSCs were primarily implicated in fatty acid metabolism, whereas those with lower 5 hmC levels were associated with electron transport chain activity. Vit-C increased 5 hmC levels in mitochondrial antioxidant genes, improved mitochondrial structure and membrane potential, and decreased oxidative stress. MetS alters 5 hmC levels of mitochondria-related genes in swine MSCs. Vit-C modulated 5 hmC levels in these genes and preserved mitochondrial structure and function in MetS-MSCs. These observations may contribute to development of strategies to overcome the deleterious effects of MetS on MSCs. [ABSTRACT FROM AUTHOR]

Published
2023
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42. Effect of Hypoxia Preconditioning on the Regenerative Capacity of Adipose Tissue Derived Mesenchymal Stem Cells in a Model of Renal Artery Stenosis.

Author

Farooqui, Naba, Mohan, Arjunmohan, Isik, Busra, Goksu, Busra B, Thaler, Roman, Zhu, Xiang Yang, Krier, James D, Saadiq, Ishran M, Ferguson, Christopher M, Jordan, Kyra L, Tang, Hui, Textor, Stephen C, Hickson, La Tonya J, van Wijnen, Andre J, Eirin, Alfonso, Lerman, Lilach O, and Herrmann, Sandra M

Subjects
MESENCHYMAL stem cells, ARTERIAL stenosis, BLOOD pressure, RENAL artery, REGENERATION (Biology), ADIPOSE tissues, HYPOXEMIA, BLOOD cholesterol
Abstract

Atherosclerotic renal artery stenosis (ARAS) is associated with irreversible parenchymal renal disease and regenerative stem cell therapies may improve renal outcomes. Hypoxia preconditioning (HPC) may improve the regenerative functions of adipose tissue-derived mesenchymal stem cells (AMSC) by affecting DNA 5-hydroxymethylcytosine (5hmC) marks in angiogenic genes. Here, we investigated using a porcine ARAS model, whether growth of ARAS AMSCs in hypoxia (Hx) versus normoxia (Nx) would enhance renal tissue repair, and comprehensively analyze how HPC modifies DNA hydroxymethylation compared to untreated ARAS and healthy/normal pigs (n=5 each). ARAS pigs exhibited elevated serum cholesterol, serum creatinine and renal artery stenosis, with a concomitant decrease in renal blood flow (RBF) and increased blood pressure (BP) compared to healthy pigs. Renal artery injection of either autologous Nx or Hx AMSCs improved diastolic BP, reduced kidney tissue fibrosis, and inflammation (CD3+ T-cells) in ARAS pigs. In addition, renal medullary hypoxia significantly lowered with Nx but not Hx AMSC treatment. Mechanistically, levels of epigenetic 5hmC marks (which reflect gene activation) estimated using DNA immunoprecipitation technique were elevated in profibrotic and inflammatory genes in ARAS compared with normal AMSCs. HPC significantly reduced 5hmC levels in cholesterol biosynthesis and oxidative stress response pathways in ARAS AMSCs. Thus, autologous AMSCs improve key renovascular parameters and inflammation in ARAS pigs, with HPC mitigating pathological molecular effects on inflammatory and profibrotic genes which may play a role in augmenting regenerative capacity of AMSCs. Graphical Abstract [ABSTRACT FROM AUTHOR]

Published
2023
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45. Renal Revascularization Attenuates Myocardial Mitochondrial Damage and Improves Diastolic Function in Pigs with Metabolic Syndrome and Renovascular Hypertension

Author

Farahani, Rahele A., primary, Yu, Shasha, additional, Ferguson, Christopher M., additional, Zhu, Xiang-Yang, additional, Tang, Hui, additional, Jordan, Kyra L., additional, Saadiq, Ishran M., additional, Herrmann, Sandra M., additional, Chade, Alejandro R., additional, Lerman, Amir, additional, Lerman, Lilach O., additional, and Eirin, Alfonso, additional

Published
2021
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46. Exogenous pericyte delivery protects the mouse kidney from chronic ischemic injury.

Author

Song, Turun, Xiang-Yang Zhu, Eirin, Alfonso, Jiang, Yamei, Krier, James D., Hui Tang, Jordan, Kyra L., Lerman, Amir, and Lerman, Lilach O.

Subjects
MESENCHYMAL stem cells, GLOMERULAR filtration rate, MAGNETIC resonance imaging, KIDNEYS, PERICYTES
Abstract

Pericytes are considered reparative mesenchymal stem cell-like cells, but their ability to ameliorate chronic ischemic kidney injury is unknown. We hypothesized that pericytes would exhibit renoprotective effects in murine renal artery stenosis (RAS). Porcine kidney-derived pericytes (5 x 105) or vehicle were injected into the carotid artery 2 wk after the induction of unilateral RAS in mice. The stenotic kidney glomerular filtration rate and tissue oxygenation were measured 2 wk later using magnetic resonance imaging. We subsequently compared kidney oxidative stress, inflammation, apoptosis, fibrosis, and systemic levels of oxidative and inflammatory cytokines. Treatment of xenogeneic pericytes ameliorated the RAS-induced loss of perfusion, glomerular filtration rate, and atrophy in stenotic kidneys and restored cortical and medullary oxygenation but did not blunt hypertension. Ex vivo, pericytes injection partially mitigated RAS-induced renal inflammation, fibrosis, oxidative stress, apoptosis, and senescence. Furthermore, coculture with pericytes in vitro protected pig kidney-1 tubular cells from injury. In conclusion, exogenous delivery of renal pericytes protects the poststenotic mouse kidney from ischemic injury, underscoring the therapeutic potential role of pericytes in subjects with ischemic kidney disease. [ABSTRACT FROM AUTHOR]

Published
2022
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47. IL-10 partly mediates the ability of MSC-derived extracellular vesicles to attenuate myocardial damage in experimental metabolic renovascular hypertension.

Author

Yamei Jiang, Siting Hong, Xiangyang Zhu, Lei Zhang, Hui Tang, Jordan, Kyra L., Saadiq, Ishran M., Weijun Huang, Lerman, Amir, Eirin, Alfonso, and Lerman, Lilach O.

Subjects
RENOVASCULAR hypertension, ADIPOSE tissue diseases, EXTRACELLULAR vesicles, INTERLEUKIN-10, MESENCHYMAL stem cells, KIDNEY physiology, CARDIOLOGICAL manifestations of general diseases
Abstract

Extracellular vesicles (EVs) obtain properties of immunomodulation and tissue repair from their parental mesenchymal stem cells (MSCs), and upon delivery may be associated with fewer adverse events. EVs derived from adipose-tissue MSCs restored kidney function by attenuating kidney inflammation in a swine model of metabolic syndrome (MetS) and renal artery stenosis via antiinflammatory pathways. EVs also ameliorated myocardial injury in renovascular hypertension (RVH) secondary to inflammation in cardiorenal disease, but the mechanisms regulating this effect are unknown. We hypothesize that the anti-inflammatory cytokine interleukin (IL)-10 mediates the reparative effects of EVs on cardiovascular complications in a preclinical swine model with coexisting MetS and RVH. Twenty-three pigs established as Lean controls or RVH models were observed for 16 weeks. At 12 weeks RVH subgroups received an intrarenal delivery of 1011 either wildtype (WT) EVs or EVs after IL-10 knockdown (KD) (RVH+WT-EVs or RVH+IL-10-KD-EVs, respectively). Cardiac and renal function were studied in-vivo and myocardial tissue injury in-vitro 4 weeks later. RVH pigs showed myocardial inflammation, fibrosis, and left ventricular diastolic dysfunction. WT-EVs attenuated these impairments, increased capillary density, and decreased myocardial inflammation in-vivo. In-vitro, co-incubation with IL-10-containing WT-EVs decreased activated T-cells proliferation and endothelial cells inflammation and promoted their migration. Contrarily, these cardioprotective effects were largely blunted using IL-10-KD-EVs. Thus, the anti-inflammatory and proangiogenic effects of EVs in RVH may be partly attributed to their cargo of anti-inflammatory IL-10. Early intervention of IL-10-containing EVs may be helpful to prevent cardiovascular complications of MetS concurrent with RVH. [ABSTRACT FROM AUTHOR]

Published
2022
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49. Diabetic Kidney Disease Alters the Transcriptome and Function of Human Adipose-Derived Mesenchymal Stromal Cells but Maintains Immunomodulatory and Paracrine Activities Important for Renal Repair

Author

Hickson, LaTonya J., primary, Eirin, Alfonso, primary, Conley, Sabena M., primary, Taner, Timucin, primary, Bian, Xiaohui, primary, Saad, Ahmed, primary, Herrmann, Sandra M., primary, Mehta, Ramila A., primary, McKenzie, Travis J., primary, Kellogg, Todd A., primary, Kirkland, James L., primary, Tchkonia, Tamar, primary, Saadiq, Ishran M., primary, Tang, Hui, primary, Jordan, Kyra L., primary, Zhu, Xiangyang, primary, Griffin, Mathew D., primary, Rule, Andrew D., primary, Wijnen, Andre J. van, primary, Textor, Stephen C., primary, and Lerman, Lilach O., primary

Published
2021
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50. Mesenchymal Stem/Stromal Cell-Derived Extracellular Vesicles Elicit Better Preservation of the Intra-Renal Microvasculature Than Renal Revascularization in Pigs with Renovascular Disease

Author

Ferguson, Christopher M., primary, Farahani, Rahele A., additional, Zhu, Xiang-Yang, additional, Tang, Hui, additional, Jordan, Kyra L., additional, Saadiq, Ishran M., additional, Lerman, Amir, additional, Lerman, Lilach O., additional, and Eirin, Alfonso, additional

Published
2021
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