Publications by authors named "Soh-hyun Lee"

Acute myeloid leukemia (AML) is a heterogeneous and deadly disease characterized by uncontrolled expansion of malignant blasts. Altered metabolism and dysregulated microRNA (miRNA) expression profiles are both characteristic of AML. However, there is a paucity of studies exploring how changes in the metabolic state of the leukemic cells regulate miRNA expression leading to altered cellular behavior.

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(1) Background: Immune cells infiltrate the tumor microenvironment and secrete inflammatory cytokines, including interferons (IFNs), to drive antitumor responses and promote tumor clearance. However, recent evidence suggests that sometimes, tumor cells can also harness IFNs to enhance growth and survival. The essential NAD+ salvage pathway enzyme nicotinamide phosphoribosyltransferase (NAMPT) gene is constitutively expressed in cells during normal homeostasis.

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Intercellular communication is critical for homeostasis in mammalian systems, including the gastrointestinal (GI) tract. Exosomes are nanoscale lipid extracellular vesicles that mediate communication between many cell types. Notably, the roles of immune cell exosomes in regulating GI homeostasis and inflammation are largely uncharacterized.

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Tumor associated macrophage responses are regulated by distinct metabolic states that affect their function. However, the ability of specific signals in the local tumor microenvironment to program macrophage metabolism remains under investigation. Here, we identify NAMPT, the rate limiting enzyme in NAD salvage synthesis, as a target of STAT1 during cellular activation by interferon gamma, an important driver of macrophage polarization and antitumor responses.

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Aging-related chronic inflammation is a risk factor for many human disorders through incompletely understood mechanisms. Aged mice deficient in microRNA (miRNA/miR)-146a succumb to life-shortening chronic inflammation. In this study, we report that miR-155 in T cells contributes to shortened lifespan of miR-146a mice.

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Article Synopsis
  • Metabolic pathways are crucial for T cell development and function, but many aspects remain unexplored.
  • Deleting the Mitochondrial Pyruvate Carrier 1 (Mpc1) in the blood cell system leads to fewer peripheral αβ T cells and causes issues at key development stages in the thymus.
  • This study highlights that pyruvate oxidation is vital for effective αβ T cell development, as its lack leads to a reduction in T cell numbers and increased susceptibility to autoimmune diseases in mice.
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High tissue iron levels are a risk factor for multiple chronic diseases including type 2 diabetes mellitus (T2DM) and non-alcoholic fatty liver disease (NAFLD). To investigate causal relationships and underlying mechanisms, we used an established NAFLD model-mice fed a high fat diet with supplemental fructose in the water ("fast food", FF). Iron did not affect excess hepatic triglyceride accumulation in the mice on FF, and FF did not affect iron accumulation compared to normal chow.

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Article Synopsis
  • The study reveals that the microbiota plays a significant role in obesity and metabolic syndrome (MetS), highlighting the importance of specific microorganisms, particularly Clostridia, in preventing these conditions.
  • Researchers found that age-related changes in the gut microbiome, including the loss of Clostridia, were linked to obesity, and T cell responses were crucial for protecting against these metabolic issues.
  • Experiments showed that introducing Clostridia to germ-free mice led to decreased lipid absorption and lower body fat, suggesting that maintaining a healthy microbiota can help manage obesity and MetS.
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Article Synopsis
  • The study focuses on the role of microRNA-146a (miR-146a) in regulating inflammation related to diet-induced obesity in mice, highlighting its potential for treating metabolic diseases.
  • Mice lacking miR-146a showed significant weight gain and metabolic issues when fed a high-fat diet, along with activation of pro-inflammatory genes.
  • The researchers found that miR-146a helps control inflammation and metabolism in macrophages, and using a drug that inhibits the mTOR pathway rescued the obesity effects in these mice.
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Extracellular vesicles, including exosomes, have recently been implicated as novel mediators of immune cell communication in mammals. However, roles for endogenously produced exosomes in regulating immune cell functions in vivo are just beginning to be identified. In this article, we demonstrate that Rab27a and Rab27b double-knockout (Rab27DKO) mice that are deficient in exosome secretion have a chronic, low-grade inflammatory phenotype characterized by elevated inflammatory cytokines and myeloproliferation.

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MicroRNA-155 (miR-155) regulates antitumor immune responses. However, its specific functions within distinct immune cell types have not been delineated in conditional KO mouse models. In this study, we investigated the role of miR-155 specifically within T cells during the immune response to syngeneic tumors.

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FLT3-ITD acute myeloid leukemia (AML) accounts for ∼25% of all AML cases and is a subtype that carries a poor prognosis. microRNA-155 (miR-155) is specifically overexpressed in FLT3-ITD AML compared with FLT3 wild-type (FLT3-WT) AML and is critical for the growth of FLT3-ITD AML cells in vitro. However, miR-155's role in regulating FLT3-ITD-mediated disease in vivo remains unclear.

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Dietary iron supplementation is associated with increased appetite. Here, we investigated the effect of iron on the hormone leptin, which regulates food intake and energy homeostasis. Serum ferritin was negatively associated with serum leptin in a cohort of patients with metabolic syndrome.

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The circadian rhythm of the liver maintains glucose homeostasis, and disruption of this rhythm is associated with type 2 diabetes. Feeding is one factor that sets the circadian clock in peripheral tissues, but relatively little is known about the role of specific dietary components in that regard. We assessed the effects of dietary iron on circadian gluconeogenesis.

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Article Synopsis
  • Mitochondrial dysfunction and oxidative stress are linked to diabetes, with manganese-superoxide dismutase (MnSOD) serving as an important antioxidant.
  • In a study, wild-type mice receiving manganese supplements showed significant increases in MnSOD activity and improved β-cell function, even under diet-induced stress conditions.
  • Manganese supplementation enhanced insulin secretion and glucose tolerance in mice on a high-fat diet, indicating its potential benefits for managing diabetes-related glucose dysregulation.
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Hyperglycemia-induced oxidative stress is widely recognized as a key mediator in the pathogenesis of diabetic nephropathy, a complication of diabetes. We found that both expression and enzymatic activity of cytosolic NADP(+)-dependent isocitrate dehydrogenase (IDPc) were upregulated in the renal cortexes of diabetic rats and mice. Similarly, IDPc was induced in murine renal proximal tubular OK cells by high hyperglycemia, while it was abrogated by co-treatment with the antioxidant N-Acetyl-Cysteine (NAC).

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NADPH is an essential cofactor for many enzymatic reactions including glutathione metabolism and fat and cholesterol biosynthesis. We have reported recently an important role for mitochondrial NADP(+)-dependent isocitrate dehydrogenase in cellular defense against oxidative damage by providing NADPH needed for the regeneration of reduced glutathione. However, the role of cytosolic NADP(+)-dependent isocitrate dehydrogenase (IDPc) is still unclear.

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