Hak-Mo Lee

EVpedia: a community web portal for extracellular vesicles research

MOTIVATION Extracellular vesicles (EVs) are spherical bilayered proteolipids, harboring various bioactive molecules. Due to the complexity of the vesicular nomenclatures and components, online searches for EV-related publications and vesicular components are currently challenging. RESULTS We present an improved version of EVpedia, a public database for EVs research. This community web portal contains a database of publications and vesicular components, identification of orthologous vesicular components, bioinformatic tools and a personalized function. EVpedia includes 6879 publications, 172 080 vesicular components from 263 high-throughput datasets, and has been accessed more than 65 000 times from more than 750 cities. In addition, about 350 members from 73 international research groups have participated in developing EVpedia. This free web-based database might serve as a useful resource to stimulate the emerging field of EV research. AVAILABILITY AND IMPLEMENTATION The web site was implemented in PHP, Java, MySQL and Apache, and is freely available at http://evpedia.info.

Role of complement regulatory proteins in the survival of murine allo-transplanted Sertoli cells.

Sertoli cells (SC) are known to contain immunoprotective properties, which allow them to survive as allografts without the use of immunosuppressive drugs. Experiments were designed to determine which factors are related to prolonged survival of allogeneic SC. Balb/c derived Sertoli (TM4) and colon cancer (CT-26) cell lines were implanted beneath the kidney capsule of non-immunosuppressed C57BL/6 mice and compared their survival as allografts. Compared to TM4 graft, which survived more than 7 days after transplantation, CT-26 showed massive infiltration of polymorphonuclear cells, necrosis and enlargement of draining lymph nodes. Cultured cell lines showed no differences in their expression patterns of FasL, TGF β1, clusterin and two complement regulatory proteins (CRP, i.e., membrane cofactor protein, MCP; decay accelerating factor, DAF), but protectin (CD59), another member of CRP was expressed only on TM4. These results suggest that CD59 and unknown factors may contribute to the prolonged survival of SC in non-immunoprivileged sites.

SIRT3 Overexpression Attenuates Palmitate-Induced Pancreatic β-Cell Dysfunction

Abnormally high levels of circulating free fatty acids can lead to pancreatic islet β-cell dysfunction and apoptosis, contributing to β-cell failure in Type 2 diabetes. The NAD+-dependent protein deacetylase Sirtuin-3 (SIRT3) has been implicated in Type 2 diabetes. In this study, we tested whether SIRT3 overexpression affects palmitate-induced β-cell dysfunction in cells of line NIT1, which are derived from mouse pancreatic β-cells. Two different lengths of SIRT3 were overexpressed: full length SIRT3 (SIRT3LF), which was preferentially targeted to mitochondria and partially to the nucleus, and its N-terminal truncated form (SIRT3SF), which was located in the nucleus and cytoplasm. Overexpression of SIRT3LF and SIRT3SF using an adenoviral system alleviated palmitate-induced lipotoxicity such as reduction of cell viability and mitogen-activated protein kinase (MAPK) activation. Chronic exposure to low concentrations of palmitate suppressed glucose-stimulated insulin secretion, but the suppression was effectively reversed by overexpression of SIRT3LF or SIRT3SF. The mRNA levels of the endoplasmic reticulum (ER) stress responsive genes ATF4, GRP94 and FKBP11 were increased by palmitate treatment, but the increases were completely inhibited by SIRT3LF overexpression and less effectively inhibited by SIRT3SF overexpression. This result suggests that overexpression of SIRT3 inhibits induction of ER stress by palmitate. Collectively, we conclude that overexpression of SIRT3 alleviates palmitate-induced β-cell dysfunction.

Cell-mediated immunomodulation of chemokine receptor 7-expressing porcine sertoli cells in murine heterotopic heart transplantation.

BACKGROUND Sertoli cells (SC) have immunomodulative properties, and chemokine receptor 7 (CCR7) can optimize the systemic immunomodulatory effect by guiding SC from the periphery to the secondary lymphoid organs. METHODS The effect of immortalized neonatal porcine SC (NPSCi) was evaluated by analysis of cytokine levels. Hyporesponsiveness to donor cells was determined by MLC and analysis of splenocyte phenotypes using a murine allogeneic skin graft model. The effect of CCR7-expressing NPSCi (NPSCi-CCR7) combined with cobra venom factor (CVF) was evaluated using a heterotopically transplanted murine allogeneic heart model. RESULTS Expression of immune cytokines was markedly modulated by NPSCi. The lymphocyte proliferation and splenocyte phenotypes were significantly suppressed by NPSCi-CCR7. Although pre-transplantation of NPSCi or NPSCi-CCR7 did not prolong graft survival of allogeneic cardiac grafts, CVF treatment facilitated pre-transplantation of NPSCi-CCR7 to prolong survival of allogeneic cardiac grafts (25.5 +/- 7.05 vs 9.5 +/- 0.58 days, p < 0.01). CONCLUSIONS NPSCi may be used as a powerful immunomodulatory tool, and our strategy to traffic NPSCi to lymphoid organs using CCR7 optimizes the systemic immunomodulatory effect in vivo. With the help of initial immunosuppression for humoral mechanisms using CVF, the host immune response against allogeneic cardiac grafts can be effectively ameliorated by immunomodulation of the cellular mechanism with NPSCi-CCR7.

Mechanism of Humoral and Cellular Immune Modulation Provided by Porcine Sertoli Cells

The understanding of main mechanisms that determine the ability of immune privilege related to Sertoli cells (SCs) will provide clues for promoting a local tolerogenic environment. In this study, we evaluated the property of humoral and cellular immune response modulation provided by porcine SCs. Porcine SCs were resistant to human antibody and complement-mediated formation of the membrane attack complex (38.41±2.77% vs. 55.02±5.44%, p=0.027) and cell lysis (42.95±1.75% vs. 87.99±2.25%, p<0.001) compared to immortalized aortic endothelial cells, suggesting that porcine SCs are able to escape cellular lysis associated with complement activation by producing one or more immunoprotective factors that may be capable of inhibiting membrane attack complex formation. On the other hand, porcine SCs and their culture supernatant suppressed the up-regulation of CD40 expression (p<0.05) on DCs in the presence of LPS stimulation. These novel findings, as we know, suggest that immune modulatory effects of porcine SCs in the presence of other antigen can be obtained from the first step of antigen presentation. These might open optimistic perspectives for the use of porcine SCs in tolerance induction eliminating the need for chronic immunosuppressive drugs.

Age-dependent expression of immune-privilege and proliferation-related molecules on porcine Sertoli cells.

Abstract: Background: The immunoprotective nature of the testes has prompted numerous investigations into their supportive roles during allogeneic or xenogeneic cellular grafts. However, the optimal developmental stage of these cells in terms of maximum efficacy for cellular grafts has not been elucidated. In this study, the time‐dependent expressions of immune‐privilege‐ and proliferation‐related molecules in Sertoli cells were determined.

Establishment and characterization of porcine Sertoli cell line for the study of xenotransplantation.

Abstract:  Background:  An understanding of the main mechanism that determines the ability of immune privilege related to Sertoli cells (SC) will provide clues for promoting a local tolerogenic environment. In this report, we established neonatal porcine SC line and evaluated their characteristics.

Alleviation of skin inflammation after Lin− cell transplantation correlates with their differentiation into myeloid-derived suppressor cells

To understand the cellular mechanism underlying the therapeutic effects exerted by hematopoietic stem cell transplantation in the repair of tissue damage, we investigated the in vivo dynamics of bone marrow (BM) lineage-negative (Lin−) cells transplanted into mice with hyper sensitivity dermatitis. Longitudinal in vivo imaging and flow cytometry analyses revealed that Lin− cells home directly to inflamed skin within 6 h, where they undergo extensive expansion with the peak on day 14 post-transplantation, and preferential differentiation into CD11b+Ly6GintLy6C+ cells by day 7. Cells with phenotypic profiles of neutrophils, macrophages, and DCs appeared in inflamed skin on day 14. Progenies of transplanted Lin− cells showed similar kinetics of expansion and myeloid differentiation in BM. However, differentiation into CD11b+Ly6GintLy6C+ cells in the inflamed skin on day 7 was more skewed toward CD115+ cells (≥60%) with immune suppressive function and higher expression levels of iNOS, arginase, and IL-10, compared with those in the BM. Transplantation of Lin− cells reduced the levels of Cd3 transcript and CD4+/CD8+ cells in inflamed skin. These results demonstrate differentiation of transplanted Lin− cells into myeloid-derived suppressor cells in inflamed skin to be the basis of the alleviation of skin inflammation after Lin− cell transplantation.

Senp2 expression was induced by chronic glucose stimulation in INS1 cells, and it was required for the associated induction of Ccnd1 and Mafa

ABSTRACT Post-translational modification by bonding of small ubiquitin-like modifier (SUMO) peptides influences various cellular functions, and is regulated by SUMO-specific proteases (SENPs). Several proteins have been suggested to have diverse impact on insulin synthesis and secretion through SUMO modification in β cells. However, the role of SUMO modification in β cell mass has not been established. Here, we examined the changes in expression of Senp in INS1 cells and pancreatic islets under diabetes-relevant stress conditions and associated changes in β cell mass. Treatment with 25 mM glucose for 72 h induced Senp2 mRNA expression but not that of Senp1 in INS1 cells. Immunohistochemical staining with anti-SENP2 antibody on human pancreas sections revealed that SENP2 was localized in the nucleus. Moreover, in a patient with type 2 diabetes, SENP2 levels were enhanced, especially in the cytoplasm. Senp2 cytoplasmic levels were also increased in islet cells in obese diabetic mice. Cell number peaked earlier in INS1 cells cultured in high-glucose conditions compared to those cultured in control media. This finding was associated with increased Ccnd1 mRNA expression in high-glucose conditions, and siRNA-mediated Senp2 suppression abrogated it. Mafa expression, unlike Pdx1, was also dependent on Senp2 expression during high-glucose conditions. In conclusion, Senp2 may play a role in β cell mass in response to chronic high-glucose through Cyclin D1 and Mafa.

Autophagy deficiency in β cells blunts incretin-induced suppression of glucagon release from α cells

Incretin-based therapy such as GLP-1 receptor agonists and DPP-4 inhibitors for type 2 diabetes mellitus is characterized by glucose-dependent insulin secretion and glucose-inhibited glucagon secretion. Recently, autophagy deficiency in islet β cells has been shown to contribute to the pathogenesis of type 2 diabetes mellitus however, with the role of incretin has not been established. To evaluate the role of autophagy in incretin effects, 8-week-old male β cell-specific Atg7 knockout (Atg7Δβ cell) mice and wild-type mice were administered vildagliptin for 12 weeks. Vildagliptin treatment improved glucose intolerance and hypoinsulinemia; however, it failed to suppress serum glucagon levels after glucose loading in the Atg7Δβ cell mice. Ex vivo glucose-induced glucagon suppression was also blunted in the islets from vildagliptin-treated Atg7Δβ cell mice. The α cell mass was not affected by β cell autophagy deficiency or vildagliptin. However, glucagon mRNA expression was significantly increased by vildagliptin in the autophagy-deficient islets, and was significantly reduced by vildagliptin in wild-type islets. Pancreatic glucagon contents were not in agreement with the changes in mRNA expression, suggesting a dysregulation in glucagon translation and secretion. In vitro studies revealed that glucose-stimulated cAMP production was impaired in the autophagy-deficient islets exposed to exendin-4. Taken together, the results suggest that the constitutive autophagy in β cells could regulate incretin-induced glucagon expression and release in α cells, and that cAMP may play a role in this process.