Yi Ju Chou scite author profile

CDGSH iron-sulfur domain-containing protein 2 (Cisd2) is pivotal to mitochondrial integrity and intracellular Ca2+ homeostasis. In the heart of Cisd2 knockout mice, Cisd2 deficiency causes intercalated disc defects and leads to degeneration of the mitochondria and sarcomeres, thereby impairing its electromechanical functioning. Furthermore, Cisd2 deficiency disrupts Ca2+ homeostasis via dysregulation of sarco/endoplasmic reticulum Ca2+-ATPase (Serca2a) activity, resulting in an increased level of basal cytosolic Ca2+ and mitochondrial Ca2+ overload in cardiomyocytes. Most strikingly, in Cisd2 transgenic mice, a persistently high level of Cisd2 is sufficient to delay cardiac aging and attenuate age-related structural defects and functional decline. In addition, it results in a younger cardiac transcriptome pattern during old age. Our findings indicate that Cisd2 plays an essential role in cardiac aging and in the heart’s electromechanical functioning. They highlight Cisd2 as a novel drug target when developing therapies to delay cardiac aging and ameliorate age-related cardiac dysfunction.

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Mitochondria and Calcium Homeostasis: Cisd2 as a Big Player in Cardiac Ageing

Yeh

Chou

Kao

et al. 2020

IJMS

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The ageing of human populations has become a problem throughout the world. In this context, increasing the healthy lifespan of individuals has become an important target for medical research and governments. Cardiac disease remains the leading cause of morbidity and mortality in ageing populations and results in significant increases in healthcare costs. Although clinical and basic research have revealed many novel insights into the pathways that drive heart failure, the molecular mechanisms underlying cardiac ageing and age-related cardiac dysfunction are still not fully understood. In this review we summarize the most updated publications and discuss the central components that drive cardiac ageing. The following characters of mitochondria-related dysfunction have been identified during cardiac ageing: (a) disruption of the integrity of mitochondria-associated membrane (MAM) contact sites; (b) dysregulation of energy metabolism and dynamic flexibility; (c) dyshomeostasis of Ca2+ control; (d) disturbance to mitochondria–lysosomal crosstalk. Furthermore, Cisd2, a pro-longevity gene, is known to be mainly located in the endoplasmic reticulum (ER), mitochondria, and MAM. The expression level of Cisd2 decreases during cardiac ageing. Remarkably, a high level of Cisd2 delays cardiac ageing and ameliorates age-related cardiac dysfunction; this occurs by maintaining correct regulation of energy metabolism and allowing dynamic control of metabolic flexibility. Together, our previous studies and new evidence provided here highlight Cisd2 as a novel target for developing therapies to promote healthy ageing

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Vaccine adjuvant activity of a TLR4-activating synthetic glycolipid by promoting autophagy

Chou

Lin²,

Dzhagalov³

et al. 2020

Sci Rep

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Toll-like receptors (TLRs) play crucial roles in host immune defenses. Recently, TLR-mediated autophagy is reported to promote immune responses via increasing antigen processing and presentation in antigen presenting cells. The present study examined whether the synthetic TLR4 activator (CCL-34) could induce autophagy to promote innate and adaptive immunity. In addition, the potential of CCL-34 as an immune adjuvant in vivo was also investigated. Our data using RAW264.7 cells and bone marrow-derived macrophages showed that CCL-34 induced autophagy through a TLR4-NF-κB pathway. The autophagy-related molecules (Nrf2, p62 and Beclin 1) were activated in RAW264.7 cells and bone marrow-derived macrophages under CCL-34 treatment. CCL-34-stimulated macrophages exhibited significant antigen-processing activity and induced the proliferation of antigen-specific CD4+T cells as well as the production of activated T cell-related cytokines, IL-2 and IFN-γ. Furthermore, CCL-34 immunization in mice induced infiltration of monocytes in the peritoneal cavity and elevation of antigen-specific IgG in the serum. CCL-34 treatment in vivo did not cause toxicity based on serum biochemical profiles. Notably, the antigen-specific responses induced by CCL-34 were attenuated by the autophagy inhibitor, 3-methyladenine. In summary, we demonstrated CCL-34 can induce autophagy to promote antigen-specific immune responses and act as an efficient adjuvant. Vaccine development holds a great contribution in infectious disease prevention and cancer immunotherapy. Vaccines contain both antigens and adjuvants to induce antigen (Ag)-specific antibody responses. Adjuvants are required to boost Ag-specific adaptive immune response in B cells and T cells. The current strategies of vaccine development to trigger early immune responses are via enhancing Ag uptake in antigen-presenting cells (APCs), providing appropriate microenvironments for APC activations, and further promoting the differentiation of naïve T cells into effector T cells 1,2. Currently licensed adjuvants in clinical applications, such as AS04, MF59 and Alum, were reported to activate pattern recognition receptors (PRRs) and/or NLRP3 inflammasome, which trigger humoral antibody responses accompanied with T cell responses 1,3-5. Recent studies showed that stimulation of autophagy is able to augment T cell responses via modulating the functions in both APCs and T cells 6. The autophagy/lysosome degradation pathway is an evolutionarily conserved stress response mechanism for survival 7 , and its dysregulation plays critical roles in human diseases 8. During infection, one of the major immune mechanisms against pathogens is to induce canonical and noncanonical autophagy in macrophages. The canonical selective autophagy (xenophagy) selectively captures and degrades intracellular mycobacteria, such as Mycobacterium tuberculosis and Listeria monocytogenes 9,10. Moreover, the noncanonical autophagy, LC3-associated phagocytosis (LAP), can accelerate pathogen clearance 11-15. Furthermore, induction o...

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Andrographolide and its potent derivative exhibit anticancer effects against imatinib-resistant chronic myeloid leukemia cells by downregulating the Bcr-Abl oncoprotein

Liao¹,

Chou

Lin³

et al. 2019

Biochemical Pharmacology

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Simultaneous Determination of l-Phenylalanine, Phenylethylamine, and Phenylacetic Acid Using Three-Color Whole-Cell Biosensors within a Microchannel Device

Hsu

Lin

Guo

et al. 2020

ACS Appl. Bio Mater.

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The neurotransmitter phenylethylamine (PEA) is highly susceptible to oxidation to produce phenylacetic acid (PA). The fact that PEA and PA are both metabolites of phenylalanine (Phe) in humans makes them important indicators in the diagnosis of phenylketonuria. In this work, three-color whole-cell biosensors were developed to simultaneously detect these analytes (Phe, PEA, and PA). The tyrosine-responsive promoter was used to control the production of green fluorescent protein signals in response to Phe levels. The FeaR regulon was first used to indicate the presence of PEA, whereas the Paa regulon was used for the detection of PA. The combination of three sensor strains together made it possible to semiquantify the three analytes according to unique color outputs without cross-interference. We sought to optimize various modular components (ribosomal binding sites and fluorescent proteins) to ensure the rapid generation of fluorescent signals. Finally, the biosensors were implemented within a microchannel device to reduce sample consumption in point-of-care assays.

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Yi Ju Chou

Cisd2 is essential to delaying cardiac aging and to maintaining heart functions

Mitochondria and Calcium Homeostasis: Cisd2 as a Big Player in Cardiac Ageing

Vaccine adjuvant activity of a TLR4-activating synthetic glycolipid by promoting autophagy

Andrographolide and its potent derivative exhibit anticancer effects against imatinib-resistant chronic myeloid leukemia cells by downregulating the Bcr-Abl oncoprotein

Simultaneous Determination of l-Phenylalanine, Phenylethylamine, and Phenylacetic Acid Using Three-Color Whole-Cell Biosensors within a Microchannel Device

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