Jung Joon Min scite author profile

Advances in genetic engineering tools have contributed to the development of strategies for utilizing biologically derived vesicles as nanomedicines for achieving cell-specific drug delivery. Here, we describe bioengineered bacterial outer membrane vesicles (OMVs) with low immunogenicity that can target and kill cancer cells in a cell-specific manner by delivering small interfering RNA (siRNA) targeting kinesin spindle protein (KSP). A mutant Escherichia coli strain that exhibits reduced endotoxicity toward human cells was engineered to generate OMVs displaying a human epidermal growth factor receptor 2 (HER2)-specific affibody in the membrane as a targeting ligand. Systemic injection of siRNA-packaged OMVs caused targeted gene silencing and induced highly significant tumor growth regression in an animal model. Importantly, the modified OMVs were well tolerated and showed no evidence of nonspecific side effects. We propose that bioengineered OMVs have great potential as cell-specific drug-delivery vehicles for treating various cancers.

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Regulation of Acetylation of Histone Deacetylase 2 by p300/CBP-Associated Factor/Histone Deacetylase 5 in the Development of Cardiac Hypertrophy

Eom

Nam

et al. 2014

Circulation Research

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Rationale: Histone deacetylases (HDACs) are closely involved in cardiac reprogramming. Although the functional roles of class I and class IIa HDACs are well established, the significance of interclass crosstalk in the development of cardiac hypertrophy remains unclear. Objective: Recently, we suggested that casein kinase 2α1–dependent phosphorylation of HDAC2 leads to enzymatic activation, which in turn induces cardiac hypertrophy. Here we report an alternative post-translational activation mechanism of HDAC2 that involves acetylation of HDAC2 mediated by p300/CBP-associated factor/HDAC5. Methods and Results: Hdac2 was acetylated in response to hypertrophic stresses in both cardiomyocytes and a mouse model. Acetylation was reduced by a histone acetyltransferase inhibitor but was increased by a nonspecific HDAC inhibitor. The enzymatic activity of Hdac2 was positively correlated with its acetylation status. p300/CBP-associated factor bound to Hdac2 and induced acetylation. The HDAC2 K75 residue was responsible for hypertrophic stress–induced acetylation. The acetylation-resistant Hdac2 K75R showed a significant decrease in phosphorylation on S394, which led to the loss of intrinsic activity. Hdac5, one of class IIa HDACs, directly deacetylated Hdac2. Acetylation of Hdac2 was increased in Hdac5-null mice. When an acetylation-mimicking mutant of Hdac2 was infected into cardiomyocytes, the antihypertrophic effect of either nuclear tethering of Hdac5 with leptomycin B or Hdac5 overexpression was reduced. Conclusions: Taken together, our results suggest a novel mechanism by which the balance of HDAC2 acetylation is regulated by p300/CBP-associated factor and HDAC5 in the development of cardiac hypertrophy.

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SIRT3 promotes antimycobacterial defenses by coordinating mitochondrial and autophagic functions

Kim¹,

Jin

Kim³

et al. 2019

Autophagy

124

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SIRT3 (sirtuin 3), a mitochondrial protein deacetylase, maintains respiratory function, but its role in the regulation of innate immune defense is largely unknown. Herein, we show that SIRT3 coordinates mitochondrial function and macroautophagy/autophagy activation to promote anti-mycobacterial responses through PPARA (peroxisome proliferator activated receptor alpha). SIRT3 deficiency enhanced inflammatory responses and mitochondrial dysfunction, leading to defective host defense and pathological inflammation during mycobacterial infection. Antibody-mediated depletion of polymorphonuclear neutrophils significantly increased protection against mycobacterial infection in sirt3 −/mice. In addition, mitochondrial oxidative stress promoted excessive inflammation induced by Mycobacterium tuberculosis infection in sirt3 −/macrophages. Notably, SIRT3 was essential for the enhancement of PPARA, a key regulator of mitochondrial homeostasis and autophagy activation in the context of infection. Importantly, overexpression of either PPARA or TFEB (transcription factor EB) in sirt3 −/macrophages recovered antimicrobial activity through autophagy activation. Furthermore, pharmacological activation of SIRT3 enhanced antibacterial autophagy and functional mitochondrial pools during mycobacterial infection. Finally, the levels of SIRT3 and PPARA were downregulated and inversely correlated with TNF (tumor necrosis factor) levels in peripheral blood mononuclear cells from tuberculosis patients. Collectively, these data demonstrate a previously unappreciated function of SIRT3 in orchestrating mitochondrial and autophagic functions to promote antimycobacterial responses.

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Gene Therapy Progress and Prospects: Noninvasive imaging of gene therapy in living subjects

Min

Gambhir

2004

Gene Ther

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Recent progress in the development of noninvasive imaging technologies should allow molecular imaging to play a major role in the field of gene therapy. These tools have recently been validated in gene therapy models for continuous quantitative monitoring of the location(s), magnitude, and time variation of gene delivery and/or expression. This article reviews the use of radionuclide, magnetic resonance, and optical imaging technologies, as they have been used in imaging gene delivery and gene expression for gene therapy applications. The studies published to date lend support that noninvasive imaging tools will help to accelerate preclinical model validation, as well as allow for clinical monitoring of human gene therapy.

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Interim PET/CT-based prognostic model for the treatment of diffuse large B cell lymphoma in the post-rituximab era

et al. 2012

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The prognostic accuracy of interim (18)F-fluoro-2-dexoy-D-glucose positron emission tomography/computerized tomography (PET/CT) using three different methods of response assessments during rituximab, cyclophosphamide, doxorubicin, vincristine, and prednisolone chemotherapy was investigated in 186 patients with newly diagnosed diffuse large B cell lymphoma (DLBCL). The response of interim PET/CT was assessed based on a combined evaluation of the Deauville five-point scale (5-PS), the rates of reduction in the maximal standardized uptake value (ΔSUVmax), and the rates of reduction in the metabolic tumor volume (ΔMTV2.5). Positivity on the 5-PS, the optimal cutoff of ΔSUVmax, or the optimal cutoff of ΔMTV2.5 could each predict disease progression. Over a median follow-up of 22.8 months, the assessment of responses based on the 5-PS, ΔSUVmax, and ΔMTV2.5 had prognostic value for progression-free survival. When patients were allocated a score of 0 to 3 depending on the presence of an inadequate response by visual, ΔSUVmax, or ΔMTV2.5, the outcomes of patients with a score of 0 were significantly superior to those with a score of 1, 2, or 3. The interim PET/CT response based on visual, SUV-based, and MTV-based assessment had significant negative predictive value for disease progression and a high potential for predicting outcomes of patients with DLBCL.

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Jung Joon Min

Bioengineered Bacterial Outer Membrane Vesicles as Cell-Specific Drug-Delivery Vehicles for Cancer Therapy

Regulation of Acetylation of Histone Deacetylase 2 by p300/CBP-Associated Factor/Histone Deacetylase 5 in the Development of Cardiac Hypertrophy

SIRT3 promotes antimycobacterial defenses by coordinating mitochondrial and autophagic functions

Gene Therapy Progress and Prospects: Noninvasive imaging of gene therapy in living subjects

Interim PET/CT-based prognostic model for the treatment of diffuse large B cell lymphoma in the post-rituximab era

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