Ryotaro Maeda scite author profile

Acute myocardial infarction is a leading cause of death among single organ diseases.Despite successful reperfusion therapy, ischaemia reperfusion injury (IRI) can induce oxidative stress (OS), cardiomyocyte apoptosis, autophagy and release of inflammatory cytokines, resulting in increased infarct size. In IRI, mitochondrial dysfunction is a key factor, which involves the production of reactive oxygen species, activation of inflammatory signalling cascades or innate immune responses, and apoptosis.Therefore, intercellular mitochondrial transfer could be considered as a promising treatment strategy for ischaemic heart disease. However, low transfer efficiency is a challenge in clinical settings. We previously reported uptake of isolated exogenous mitochondria into cultured cells through co-incubation, mediated by macropinocytosis. Here, we report the use of transactivator of transcription dextran complexes (TAT-dextran) to enhance cellular uptake of exogenous mitochondria and improve the protective effect of mitochondrial replenishment in neonatal rat cardiomyocytes (NRCMs) against OS. TAT-dextran-modified mitochondria (TAT-Mito) showed a significantly higher level of cellular uptake. Mitochondrial transfer into NRCMs resulted in anti-apoptotic capability and prevented the suppression of oxidative phosphorylation in mitochondria after OS. Furthermore, TAT-Mito significantly reduced the apoptotic rates of cardiomyocytes after OS, compared to simple mitochondrial transfer.These results indicate the potential of mitochondrial replenishment therapy in OSinduced myocardial IRI.

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High throughput single cell analysis of mitochondrial heteroplasmy in mitochondrial diseases

Maeda

Kami

Maeda

et al. 2020

Sci Rep

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quent mutations associated with LHON. Variant m.15257G > A in the CYTB gene, which results in the change of aspartic acid from position 171 to asparagine, could be causative because the mutation was initially described as one of the primary mutations of LHON and associated with some mitochondrial diseases. Based on the sequencing data, both cell lines showed homoplasmy with mutated mtDNA at the abovementioned positions.

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IgG4-related Disease Involving the Cardiovascular System: An Intracardiac Mass and a Mass Lesion Surrounding a Coronary Artery

et al. 2019

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A 61-year-old Japanese man with IgG4-related autoimmune pancreatitis developed a mass in the right atrium (RA) and a mass lesion surrounding the left anterior descending coronary artery. We performed an intracardiac echo catheter-guided percutaneous biopsy of the RA mass, and histologically diagnosed it as IgG4related disease. Oral corticosteroid therapy gradually downsized the mass lesions. We encountered a very rare case with mass lesions in the cardiovascular system of the IgG4-related disease that were able to be diagnosed using an intracardiac echo-guided biopsy.

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Generation of somatic mitochondrial DNA-replaced cells for mitochondrial dysfunction treatment

Maeda

Kami

Maeda

et al. 2021

Sci Rep

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Mitochondrial diseases currently have no cure regardless of whether the cause is a nuclear or mitochondrial genome mutation. Mitochondrial dysfunction notably affects a wide range of disorders in aged individuals, including neurodegenerative diseases, cancers, and even senescence. Here, we present a procedure to generate mitochondrial DNA-replaced somatic cells with a combination of a temporal reduction in endogenous mitochondrial DNA and coincubation with exogeneous isolated mitochondria. Heteroplasmy in mitochondrial disease patient-derived fibroblasts in which the mutant genotype was dominant over the wild-type genotype was reversed. Mitochondrial disease patient-derived fibroblasts regained respiratory function and showed lifespan extension. Mitochondrial membranous components were utilized as a vehicle to deliver the genetic materials into endogenous mitochondria-like horizontal genetic transfer in prokaryotes. Mitochondrial DNA-replaced cells could be a resource for transplantation to treat maternal inherited mitochondrial diseases.

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RNA decay in processing bodies is indispensable for adipogenesis

et al. 2021

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The RNA decay pathway plays key regulatory roles in cell identities and differentiation processes. Although adipogenesis is transcriptionally and epigenetically regulated and has been thoroughly investigated, how RNA metabolism that contributes to the stability of phenotype-shaping transcriptomes participates in differentiation remains elusive. In this study, we investigated Ddx6, an essential component of processing bodies (PBs) that executes RNA decay and translational repression in the cytoplasm and participates in the cellular transition of reprogramming. Upon adipogenic induction, Ddx6 dynamically accumulated to form PBs with a binding partner, 4E-T, at the early phase prior to emergence of intracellular lipid droplets. In contrast, preadipocytes with Ddx6 knockout (KO) or 4E-T knockdown (KD) failed to generate PBs, resulting in significant suppression of adipogenesis. Transcription factors related to preadipocytes and negative regulators of adipogenesis that were not expressed under adipogenic stimulation were maintained in Ddx6-KO and 4E-T-KD preadipocytes under adipogenic induction. Elimination of Dlk1, a major negative regulator of adipogenesis, in 3T3L1 Ddx6-KO cells did not restore adipogenic differentiation capacity to any extent. Similar to murine cells, human primary mesenchymal stem cells, which can differentiate into adipocytes upon stimulation with adipogenic cocktails, required DDX6 to maturate into adipocytes. Therefore, RNA decay of the entire parental transcriptome, rather than removal of a strong negative regulator, could be indispensable for adipogenesis.

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Ryotaro Maeda

TAT‐dextran–mediated mitochondrial transfer enhances recovery from models of reperfusion injury in cultured cardiomyocytes

High throughput single cell analysis of mitochondrial heteroplasmy in mitochondrial diseases

IgG4-related Disease Involving the Cardiovascular System: An Intracardiac Mass and a Mass Lesion Surrounding a Coronary Artery

Generation of somatic mitochondrial DNA-replaced cells for mitochondrial dysfunction treatment

RNA decay in processing bodies is indispensable for adipogenesis

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