Browsing by Author "Guda, Poornachander R."
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Item Analysis of Keratinocytic Exosomes from Diabetic and Nondiabetic Mice by Charge Detection Mass Spectrometry(American Chemical Society, 2022) Brown, Brooke A.; Guda, Poornachander R.; Zeng, Xuyao; Anthony, Adam; Couse, Andrew; Barnes, Lauren F.; Sharon, Edie M.; Trinidad, Jonathan C.; Sen, Chandan K.; Jarrold, Martin F.; Ghatak, Subhadip; Clemmer, David E.; Surgery, School of MedicineUnresolved inflammation compromises diabetic wound healing. Recently, we reported that inadequate RNA packaging in murine wound-edge keratinocyte-originated exosomes (Exoκ) leads to persistent inflammation [Zhou, X. ACS Nano 2020, 14(10), 12732-12748]. Herein, we use charge detection mass spectrometry (CDMS) to analyze intact Exoκ isolated from a 5 day old wound-edge tissue of diabetic mice and a heterozygous nondiabetic littermate control group. In CDMS, the charge (z) and mass-to-charge ratio (m/z) of individual exosome particles are measured simultaneously, enabling the direct analysis of masses in the 1-200 MDa range anticipated for exosomes. These measurements reveal a broad mass range for Exoκ from ∼10 to >100 MDa. The m and z values for these exosomes appear to fall into families (subpopulations); a statistical modeling analysis partially resolves ∼10-20 Exoκ subpopulations. Complementary proteomics, immunofluorescence, and electron microscopy studies support the CDMS results that Exoκ from diabetic and nondiabetic mice vary substantially. Subpopulations having high z (>650) and high m (>44 MDa) are more abundant in nondiabetic animals. We propose that these high m and z particles may arise from differences in cargo packaging. The veracity of this idea is discussed in light of other recent CDMS results involving genome packaging in vaccines, as well as exosome imaging experiments. Characterization of intact exosome particles based on the physical properties of m and z provides a new means of investigating wound healing and suggests that CDMS may be useful for other pathologies.Item Endothelial Phospholipase Cγ2 Improves Outcomes of Diabetic Ischemic Limb Rescue Following VEGF Therapy(American Diabetes Association, 2022) Rustagi, Yashika; Abouhashem, Ahmed S.; Verma, Priyanka; Verma, Sumit S.; Hernandez, Edward; Liu, Sheng; Kumar, Manishekhar; Guda, Poornachander R.; Srivastava, Rajneesh; Mohanty, Sujit K.; Kacar, Sedat; Mahajan, Sanskruti; Wanczyk, Kristen E.; Khanna, Savita; Murphy, Michael P.; Gordillo, Gayle M.; Roy, Sashwati; Wan, Jun; Sen, Chandan K.; Singh, Kanhaiya; Medicine, School of MedicineTherapeutic vascular endothelial growth factor (VEGF) replenishment has met with limited success for the management of critical limb-threatening ischemia. To improve outcomes of VEGF therapy, we applied single-cell RNA sequencing (scRNA-seq) technology to study the endothelial cells of the human diabetic skin. Single-cell suspensions were generated from the human skin followed by cDNA preparation using the Chromium Next GEM Single-cell 3' Kit v3.1. Using appropriate quality control measures, 36,487 cells were chosen for downstream analysis. scRNA-seq studies identified that although VEGF signaling was not significantly altered in diabetic versus nondiabetic skin, phospholipase Cγ2 (PLCγ2) was downregulated. The significance of PLCγ2 in VEGF-mediated increase in endothelial cell metabolism and function was assessed in cultured human microvascular endothelial cells. In these cells, VEGF enhanced mitochondrial function, as indicated by elevation in oxygen consumption rate and extracellular acidification rate. The VEGF-dependent increase in cell metabolism was blunted in response to PLCγ2 inhibition. Follow-up rescue studies therefore focused on understanding the significance of VEGF therapy in presence or absence of endothelial PLCγ2 in type 1 (streptozotocin-injected) and type 2 (db/db) diabetic ischemic tissue. Nonviral topical tissue nanotransfection technology (TNT) delivery of CDH5 promoter-driven PLCγ2 open reading frame promoted the rescue of hindlimb ischemia in diabetic mice. Improvement of blood flow was also associated with higher abundance of VWF+/CD31+ and VWF+/SMA+ immunohistochemical staining. TNT-based gene delivery was not associated with tissue edema, a commonly noted complication associated with proangiogenic gene therapies. Taken together, our study demonstrates that TNT-mediated delivery of endothelial PLCγ2, as part of combination gene therapy, is effective in diabetic ischemic limb rescue.Item Exosome-Mediated Crosstalk between Keratinocytes and Macrophages in Cutaneous Wound Healing(ACS, 2020-09) Zhou, Xiaoju; Brown, Brooke A.; Siegel, Amanda P.; El Masry, Mohamed S.; Zeng, Xuyao; Song, Woran; Das, Amitava; Khandelwal, Puneet; Clark, Andrew; Singh, Kanhaiya; Guda, Poornachander R.; Gorain, Mahadeo; Timsina, Lava; Xuan, Yi; Jacobson, Stephen C.; Novotny, Milos V.; Roy, Sashwati; Agarwal, Mangilal; Lee, Robert J.; Sen, Chandan K.; Clemmer, David E.; Ghatak, Subhadip; Surgery, School of MedicineBidirectional cell–cell communication involving exosome-borne cargo such as miRNA has emerged as a critical mechanism for wound healing. Unlike other shedding vesicles, exosomes selectively package miRNA by SUMOylation of heterogeneous nuclear ribonucleoproteinA2B1 (hnRNPA2B1). In this work, we elucidate the significance of exosome in keratinocyte–macrophage crosstalk following injury. Keratinocyte-derived exosomes were genetically labeled with GFP-reporter (Exoκ-GFP) using tissue nanotransfection (TNT), and they were isolated from dorsal murine skin and wound-edge tissue by affinity selection using magnetic beads. Surface N-glycans of Exoκ-GFP were also characterized. Unlike skin exosome, wound-edge Exoκ-GFP demonstrated characteristic N-glycan ions with abundance of low-base-pair RNA and was selectively engulfed by wound macrophages (ωmϕ) in granulation tissue. In vitro addition of wound-edge Exoκ-GFP to proinflammatory ωmϕ resulted in conversion to a proresolution phenotype. To selectively inhibit miRNA packaging within Exoκ-GFPin vivo, pH-responsive keratinocyte-targeted siRNA-hnRNPA2B1 functionalized lipid nanoparticles (TLNPκ) were designed with 94.3% encapsulation efficiency. Application of TLNPκ/si-hnRNPA2B1 to the murine dorsal wound-edge significantly inhibited expression of hnRNPA2B1 by 80% in epidermis compared to the TLNPκ/si-control group. Although no significant difference in wound closure or re-epithelialization was observed, the TLNPκ/si-hnRNPA2B1 treated group showed a significant increase in ωmϕ displaying proinflammatory markers in the granulation tissue at day 10 post-wounding compared to the TLNPκ/si-control group. Furthermore, TLNPκ/si-hnRNPA2B1 treated mice showed impaired barrier function with diminished expression of epithelial junctional proteins, lending credence to the notion that unresolved inflammation results in leaky skin. This work provides insight wherein Exoκ-GFP is recognized as a major contributor that regulates macrophage trafficking and epithelial barrier properties postinjury.Item Genome-wide DNA hypermethylation opposes healing in patients with chronic wounds by impairing epithelial-mesenchymal transition(The American Society for Clinical Investigation, 2022) Singh, Kanhaiya; Rustagi, Yashika; Abouhashem, Ahmed S.; Tabasum, Saba; Verma, Priyanka; Hernandez, Edward; Pal, Durba; Khona, Dolly K.; Mohanty, Sujit K.; Kumar, Manishekhar; Srivastava, Rajneesh; Guda, Poornachander R.; Verma, Sumit S.; Mahajan, Sanskruti; Killian, Jackson A.; Walker, Logan A.; Ghatak, Subhadip; Mathew-Steiner, Shomita S.; Wanczyk, Kristen E.; Liu, Sheng; Wan, Jun; Yan, Pearlly; Bundschuh, Ralf; Khanna, Savita; Gordillo, Gayle M.; Murphy, Michael P.; Roy, Sashwati; Sen, Chandan K.; Surgery, School of MedicineAn extreme chronic wound tissue microenvironment causes epigenetic gene silencing. An unbiased whole-genome methylome was studied in the wound-edge tissue of patients with chronic wounds. A total of 4,689 differentially methylated regions (DMRs) were identified in chronic wound-edge skin compared with unwounded human skin. Hypermethylation was more frequently observed (3,661 DMRs) in the chronic wound-edge tissue compared with hypomethylation (1,028 DMRs). Twenty-six hypermethylated DMRs were involved in epithelial-mesenchymal transition (EMT). Bisulfite sequencing validated hypermethylation of a predicted specific upstream regulator TP53. RNA-Seq analysis was performed to qualify findings from methylome analysis. Analysis of the downregulated genes identified the TP53 signaling pathway as being significantly silenced. Direct comparison of hypermethylation and downregulated genes identified 4 genes, ADAM17, NOTCH, TWIST1, and SMURF1, that functionally represent the EMT pathway. Single-cell RNA-Seq studies revealed that these effects on gene expression were limited to the keratinocyte cell compartment. Experimental murine studies established that tissue ischemia potently induces wound-edge gene methylation and that 5'-azacytidine, inhibitor of methylation, improved wound closure. To specifically address the significance of TP53 methylation, keratinocyte-specific editing of TP53 methylation at the wound edge was achieved by a tissue nanotransfection-based CRISPR/dCas9 approach. This work identified that reversal of methylation-dependent keratinocyte gene silencing represents a productive therapeutic strategy to improve wound closure.Item Mitochondria as Target for Tumor Management of Hemangioendothelioma(Liebert, 2020) Gordillo, Gayle M.; Biswas, Ayan; Singh, Kanhaiya; Sen, Abhishek; Guda, Poornachander R.; Miller, Caroline; Pan, Xueliang; Khanna, Savita; Cadenas, Enrique; Sen, Chandan K.; Surgery, School of MedicineAims: Hemangioendothelioma (HE) may be benign or malignant. Mouse hemangioendothelioma endothelial (EOMA) cells are validated to study mechanisms in HE. This work demonstrates that EOMA cells heavily rely on mitochondria to thrive. Thus, a combination therapy, including weak X-ray therapy (XRT, 0.5 Gy) and a standardized natural berry extract (NBE) was tested. This NBE is known to be effective in managing experimental HE and has been awarded with the Food and Drug Administration Investigational New Drug (FDA-IND) number 140318 for clinical studies on infantile hemangioma. Results: NBE treatment alone selectively attenuated basal oxygen consumption rate of EOMA cells. NBE specifically sensitized EOMA, but not murine aortic endothelial cells to XRT-dependent attenuation of mitochondrial respiration and adenosine triphosphate (ATP) production. Combination treatment, selectively and potently, influenced mitochondrial dynamics in EOMA cells such that fission was augmented. This was achieved by lowering of mitochondrial sirtuin 3 (SIRT3) causing increased phosphorylation of AMP-activated protein kinase (AMPK). A key role of SIRT3 in loss of EOMA cell viability caused by the combination therapy was evident when pyrroloquinoline quinone, an inducer of SIRT3, pretreatment rescued these cells. Innovation and Conclusion: Mitochondria-targeting NBE significantly extended survival of HE-affected mice. The beneficial effect of NBE in combination with weak X-ray therapy was, however, far more potent with threefold increase in murine survival. The observation that safe natural products may target tumor cell mitochondria and sharply lower radiation dosage required for tumor management warrants clinical testing.Item Modeling the gene delivery process of the needle array-based tissue nanotransfection(Springer, 2022) Li, Zhigang; Xuan, Yi; Ghatak, Subhadip; Guda, Poornachander R.; Roy, Sashwati; Sen, Chandan K.; Surgery, School of MedicineHollow needle array-based tissue nanotransfection (TNT) presents an in vivo transfection approach that directly translocate exogeneous genes to target tissues by using electric pulses. In this work, the gene delivery process of TNT was simulated and experimentally validated. We adopted the asymptotic method and cell-array-based model to investigate the electroporation behaviors of cells within the skin structure. The distribution of nonuniform electric field across the skin results in various electroporation behavior for each cell. Cells underneath the hollow microchannels of the needle exhibited the highest total pore numbers compared to others due to the stronger localized electric field. The percentage of electroporated cells within the skin structure, with pore radius over 10 nm, increases from 25% to 82% as the applied voltage increases from 100 to 150 V/mm. Furthermore, the gene delivery behavior across the skin tissue was investigated through the multilayer-stack-based model. The delivery distance increased nonlinearly as the applied voltage and pulse number increased, which mainly depends on the diffusion characteristics and electric conductivity of each layer. It was also found that the skin is required to be exfoliated prior to the TNT procedure to enhance the delivery depth. This work provides the foundation for transition from the study of murine skin to translation use in large animals and human settings.Item Nanoscopic and Functional Characterization of Keratinocyte-Originating Exosomes in the Wound Fluid of Non-Diabetic and Diabetic Chronic Wound Patients(Elsevier, 2023) Guda, Poornachander R.; Sharma, Anu; Anthony, Adam J.; ElMasry, Mohamed S.; Couse, Andrew D.; Das Ghatak, Piya; Das, Amitava; Timsina, Lava; Trinidad, Jonathan C.; Roy, Sashwati; Clemmer, David E.; Sen, Chandan K.; Ghatak, Subhadip; Surgery, School of MedicineExosomes, a class of extracellular vesicles of endocytic origin, play a critical role in paracrine signaling for successful cell-cell crosstalk in vivo. However, limitations in our current understanding of these circulating nanoparticles hinder efficient isolation, characterization, and downstream functional analysis of cell-specific exosomes. In this work, we sought to develop a method to isolate and characterize keratinocyte-originated exosomes (hExoκ) from human chronic wound fluid. Furthermore, we studied the significance of hExoκ in diabetic wounds. LC-MS-MS detection of KRT14 in hExoκ and subsequent validation by Vesiclepedia and Exocarta databases identified surface KRT14 as a reliable marker of hExoκ. dSTORM nanoimaging identified KRT14+ extracellular vesicles (EVκ) in human chronic wound fluid, 23% of which were of exosomal origin. An immunomagnetic two-step separation method using KRT14 and tetraspanin antibodies successfully isolated hExoκ from the heterogeneous pool of EV in chronic wound fluid of 15 non-diabetic and 22 diabetic patients. Isolated hExoκ (Ø75–150nm) were characterized per EV-track guidelines. dSTORM images, analyzed using online CODI followed by independent validation using Nanometrix, revealed hExoκ Ø as 80–145nm. The abundance of hExoκ was low in diabetic wound fluids and negatively correlated with patient HbA1c levels. The hExoκ isolated from diabetic wound fluid showed a low abundance of small bp RNA (<200 bp). Raman spectroscopy underscored differences in surface lipids between non-diabetic and diabetic hExoκ Uptake of hExoκ by monocyte-derived macrophages (MDM) was low for diabetics versus non-diabetics. Unlike hExoκ from non-diabetics, the addition of diabetic hExoκ to MDM polarized with LPS and INFγ resulted in sustained expression of iNOS and pro-inflammatory chemokines known to recruit macrophage (mϕ) This work provides maiden insight into the structure, composition, and function of hExoκ from chronic wound fluid thus providing a foundation for the study of exosomal malfunction under conditions of diabetic complications such as wound chronicity.Item P19. Inhibition Of Microrna 126 Leads To Complete Regression Of Hemangioendothelioma Tumors In Mice(Wolters Kluwer, 2022) Gordillo, Gayle M.; Guda, Poornachander R.; Singh, Kanhaiya; Biswas, Ayan; Sen, Chandan K.; Surgery, School of MedicinePURPOSE: We have previously shown that urinary microRNA126 (miR126) levels are a biomarker for hemangioma growth based on a prospective longitudinal study of children with hemangiomas and healthy age matched controls. We sought to determine the significance of miR126 on the regulation of hemangioma growth using a validated mouse model. METHODS: qPCR measurement of miR126 levels was done in EOMA cells and non-tumor forming endothelial cells. 6 weeks old female 129P/3 mice received a subcutaneous injection of 5x106 EOMA cells. 4 days post injection tumors were visible and topical administration of control antagomiR (n=8) or miR126 antagomiR (n=15) delivered transcutaneously using tissue nanotransfection electroporation technique. Treatments were given twice weekly. RESULTS: EOMA cells had 8,000-fold increase in miR126 levels compared to non-tumor forming endothelial cells. Control mice had significantly larger tumors with 100% mortality by 17 days post EOMA cell injection. miR126 antagomiR treated mice were significantly different from controls with decreased mortality (40%), smaller tumor size, prolonged survival with the last mouse death at 29 days post-injection, complete tumor regression by 6 weeks (n=9) and no observed recurrence at 90 days. CONCLUSION: These are the first results to demonstrate complete regression of hemangioendothelioma in response to miR26 inhibition. Elevation of miR126 levels in human hemangioma and murine hemangioendothelioma indicate shared mechanisms of growth. These findings demonstrate that miR126 is necessary for growth of both tumor types and represents a valid therapeutic target to treat hemangiomas.