Yi Fan Chen scite author profile

CISD2, the causative gene for Wolfram syndrome 2 (WFS2), is a previously uncharacterized novel gene. Significantly, the CISD2 gene is located on human chromosome 4q, where a genetic component for longevity maps. Here we show for the first time that CISD2 is involved in mammalian life-span control. Cisd2 deficiency in mice causes mitochondrial breakdown and dysfunction accompanied by autophagic cell death, and these events precede the two earliest manifestations of nerve and muscle degeneration; together, they lead to a panel of phenotypic features suggestive of premature aging. Our study also reveals that Cisd2 is primarily localized in the mitochondria and that mitochondrial degeneration appears to have a direct phenotypic consequence that triggers the accelerated aging process in Cisd2 knockout mice; furthermore, mitochondrial degeneration exacerbates with age, and the autophagy increases in parallel to the development of the premature aging phenotype. Additionally, our Cisd2 knockout mouse work provides strong evidence supporting an earlier clinical hypothesis that WFS is in part a mitochondria-mediated disorder; specifically, we propose that mutation of CISD2 causes the mitochondriamediated disorder WFS2 in humans. Thus, this mutant mouse provides an animal model for mechanistic investigation of Cisd2 protein function and help with a pathophysiological understanding of WFS2.[Keywords: Cisd2; Wolfram syndrome 2; autophagy; knockout mice; mitochondria; premature aging] Supplemental material is available at http://www.genesdev.org.

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Wolfram Syndrome protein, Miner1, regulates sulphydryl redox status, the unfolded protein response, and Ca ²⁺ homeostasis

Wiley

et al. 2013

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Miner1 is a redox-active 2Fe2S cluster protein. Mutations in Miner1 result in Wolfram Syndrome, a metabolic disease associated with diabetes, blindness, deafness, and a shortened lifespan. Embryonic fibroblasts from Miner1−/− mice displayed ER stress and showed hallmarks of the unfolded protein response. In addition, loss of Miner1 caused a depletion of ER Ca2+ stores, a dramatic increase in mitochondrial Ca2+ load, increased reactive oxygen and nitrogen species, an increase in the GSSG/GSH and NAD+/NADH ratios, and an increase in the ADP/ATP ratio consistent with enhanced ATP utilization. Furthermore, mitochondria in fibroblasts lacking Miner1 displayed ultrastructural alterations, such as increased cristae density and punctate morphology, and an increase in O2 consumption. Treatment with the sulphydryl anti-oxidant N-acetylcysteine reversed the abnormalities in the Miner1 deficient cells, suggesting that sulphydryl reducing agents should be explored as a treatment for this rare genetic disease.

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A persistent level of Cisd2 extends healthy lifespan and delays aging in mice

Chen

Wang

et al. 2012

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The CISD2 gene, which is an evolutionarily conserved novel gene, encodes a transmembrane protein primarily associated with the mitochondrial outer membrane. Significantly, the CISD2 gene is located within the candidate region on chromosome 4q where a genetic component for human longevity has been mapped. Previously, we have shown that Cisd2 deficiency shortens lifespan resulting in premature aging in mice. Additionally, an age-dependent decrease in Cisd2 expression has been detected during normal aging. In this study, we demonstrate that a persistent level of Cisd2 achieved by transgenic expression in mice extends their median and maximum lifespan without any apparent deleterious side effects. Cisd2 also ameliorates age-associated degeneration of the skin, skeletal muscles and neurons. Moreover, Cisd2 protects mitochondria from age-associated damage and functional decline as well as attenuating the age-associated reduction in whole-body energy metabolism. These results suggest that Cisd2 is a fundamentally important regulator of lifespan and provide an experimental basis for exploring the candidacy of CISD2 in human longevity.

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Cisd2 modulates the differentiation and functioning of adipocytes by regulating intracellular Ca2+ homeostasis

Wang¹,

Chen

Wu³

et al. 2014

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CISD2 is a causative gene associated with Wolfram syndrome (WFS). However, it remains a mystery as to how the loss of CISD2 causes metabolic defects in patients with WFS. Investigation on the role played by Cisd2 in specific cell types may help us to resolve these underlying mechanisms. White adipose tissue (WAT) is central to the maintenance of energy metabolism and glucose homeostasis in humans. In this study, adipocyte-specific Cisd2 knockout (KO) mice showed impairment in the development of epididymal WAT (eWAT) in the cell autonomous manner. A lack of Cisd2 caused defects in the biogenesis and function of mitochondria during differentiation of adipocytes in vitro. Insulin-stimulated glucose uptake and secretion of adiponectin by the Cisd2 KO adipocytes were decreased. Moreover, Cisd2 deficiency increased the cytosolic level of Ca(2+) and induced Ca(2+)-calcineurin-dependent signaling that inhibited adipogenesis. Importantly, Cisd2 was found to interact with Gimap5 on the mitochondrial and ER membranes and thereby modulate mitochondrial Ca(2+) uptake associated with the maintenance of intracellular Ca(2+) homeostasis in adipocytes. Thus, it would seem that Cisd2 plays an important role in intracellular Ca(2+) homeostasis, which is required for the differentiation and functioning of adipocytes as well as the regulation of glucose homeostasis in mice.

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Giant piezoelectricity in oxide thin films with nanopillar structure

Liu

Ong

et al. 2020

Science

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High-performance piezoelectric materials are critical components for electromechanical sensors and actuators. For more than 60 years, the main strategy for obtaining large piezoelectric response has been to construct multiphase boundaries, where nanoscale domains with local structural and polar heterogeneity are formed, by tuning complex chemical compositions. We used a different strategy to emulate such local heterogeneity by forming nanopillar regions in perovskite oxide thin films. We obtained a giant effective piezoelectric coefficient d33,f* of ~1098 picometers per volt with a high Curie temperature of ~450°C. Our lead-free composition of sodium-deficient sodium niobate contains only three elements (Na, Nb, and O). The formation of local heterogeneity with nanopillars in the perovskite structure could be the basis for a general approach to designing and optimizing various functional materials.

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Continuous separation of biomolecules by the laterally asymmetric diffusion array with out-of-plane sample injection

Cabodi¹,

Chen²,

Turner³

et al. 2002

Electrophoresis

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The laterally asymmetric diffusion array, a biomolecule sorting device, was used to continuously separate a mixture of T2 and T7 coliphage DNA molecules into its constituents. A two-dimensional array of obstacles (in the presence of an average flow v) can be used to rectify the Brownian motion of particles (in this case DNA molecules) so that they diffuse preferentially in one direction, and perpendicular to the direction of the applied field (in this case an electric field). This type of device had not yet been used for actual fractionation of biomolecules, due to difficulties in injection of the sample. Here we show that with a new injection strategy a well-defined, narrow and continuous stream of molecules can be injected into the separation channel, thus enabling this separation technique to be used in a working device. We expect this type of device could now be employed for separation of a variety of different biomolecules, ranging from long dsDNA to small proteins.

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A role for the CISD2 gene in lifespan control and human disease

Chen

Wu²,

Kirby³

et al. 2010

Annals of the New York Academy of Sciences

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CISD2, the causative gene for Wolfram syndrome 2 (WFS2), is an evolutionarily conserved novel gene. Recently, we have demonstrated that CISD2 is involved in mammalian lifespan control; this work also establishes WFS2 as a mitochondria-mediated disorder and effectively links CISD2 gene function, mitochondrial integrity, and aging in mammals. In wild-type mice, the expression levels of CISD2 decrease in an age-dependent manner during the naturally aging process; this correlates with mitochondrial breakdown and parallels the development of an aged phenotype. Future work will examine how the CISD2 knockout mouse helps us to understand WFS2 pathogenesis, as well as exploring the potential effects of increased CISD2 expression. In addition, it will be of great interest to compare gene activity and/or protein function between normal human populations and long-lived centenarian groups. Together, human and mouse genetic studies should provide evidence as to whether CISD2 is a "master gene" for extreme old age.

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Pupillary responses in non-proliferative diabetic retinopathy

Park

Chen

Blair

et al. 2017

Sci Rep

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The goal of this study was to determine the extent of rod-, cone-, and melanopsin-mediated pupillary light reflex (PLR) abnormalities in diabetic patients who have non-proliferative diabetic retinopathy (NPDR). Fifty diabetic subjects who have different stages of NPDR and 25 age-equivalent, non-diabetic controls participated. PLRs were measured in response to full-field, brief-flash stimuli under conditions that target the rod, cone, and intrinsically-photosensitive (melanopsin) retinal ganglion cell pathways. Pupil responses were compared among the subjects groups using age-corrected linear mixed models. Compared to control, the mean baseline pupil diameters were significantly smaller for all patient groups in the dark (all p < 0.001) and for the moderate-severe NPDR group in the light (p = 0.003). Pairwise comparisons indicated: (1) the mean melanopsin-mediated PLR was significantly reduced in the mild and moderate-severe groups (both p < 0.001); (2) the mean cone-mediated PLR was reduced significantly in the moderate-severe group (p = 0.008); (3) no significant differences in the mean rod-mediated responses. The data indicate abnormalities in NPDR patients under conditions that separately assess pupil function driven by different photoreceptor classes. The results provide evidence for compromised neural function in these patients and provide a promising approach for quantifying their neural abnormalities.

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Yi Fan Chen

Cisd2 deficiency drives premature aging and causes mitochondria-mediated defects in mice

Wolfram Syndrome protein, Miner1, regulates sulphydryl redox status, the unfolded protein response, and Ca ²⁺ homeostasis

A persistent level of Cisd2 extends healthy lifespan and delays aging in mice

Cisd2 modulates the differentiation and functioning of adipocytes by regulating intracellular Ca2+ homeostasis

Giant piezoelectricity in oxide thin films with nanopillar structure

Continuous separation of biomolecules by the laterally asymmetric diffusion array with out-of-plane sample injection

A role for the CISD2 gene in lifespan control and human disease

Pupillary responses in non-proliferative diabetic retinopathy

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Yi Fan Chen

Cisd2 deficiency drives premature aging and causes mitochondria-mediated defects in mice

Wolfram Syndrome protein, Miner1, regulates sulphydryl redox status, the unfolded protein response, and Ca 2+ homeostasis

A persistent level of Cisd2 extends healthy lifespan and delays aging in mice

Cisd2 modulates the differentiation and functioning of adipocytes by regulating intracellular Ca2+ homeostasis

Giant piezoelectricity in oxide thin films with nanopillar structure

Continuous separation of biomolecules by the laterally asymmetric diffusion array with out-of-plane sample injection

A role for the CISD2 gene in lifespan control and human disease

Pupillary responses in non-proliferative diabetic retinopathy

Contact Info

Product

Resources

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Wolfram Syndrome protein, Miner1, regulates sulphydryl redox status, the unfolded protein response, and Ca ²⁺ homeostasis