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1. The mitochondria-targeted antioxidant MitoQ ameliorates inorganic arsenic-induced DCs/Th1/Th2/Th17/Treg differentiation partially by activating PINK1-mediated mitophagy in murine liver

Author

Hui Li, Yaning Guo, Wei Su, Huan Zhang, Xiaoxi Wei, Xinyu Ma, Shuwen Gong, Gaoyang Qu, Lin Zhang, Hong Xu, Fuhai Shen, Shoufang Jiang, Dingjie Xu, and Jinlong Li

Subjects
Arsenic, Immunotoxicity, Liver, PINK1, Mitophagy, Mitoquinone, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350
Abstract

Inorganic arsenic is a well-established environmental toxicant linked to acute liver injury, fibrosis, and cancer. While oxidative stress, pyroptosis, and ferroptosis are known contributors, the role of PTEN-induced kinase 1 (PINK1)-mediated mitophagy in arsenic-induced hepatic immunotoxicity remains underexplored. Our study revealed that acute arsenic exposure prompts differentiation of hepatic dendritic cells (DCs) and T helper (Th) 1, Th2, Th17, and regulatory T (Treg) cells, alongside increased transcription factors and cytokines. Inorganic arsenic triggered liver redox imbalance, leading to elevated alanine transaminase (ALT), hydrogen peroxide (H2O2), malondialdehyde (MDA), and activation of nuclear factor erythroid 2-related factor (Nrf2)/heme oxygenase-1 (HO-1) pathway. PINK1-mediated mitophagy was initiated, and its inhibition exacerbates H2O2 accumulation while promoting DCs/Th1/Th2/Treg differentiation in the liver of arsenic-exposed mice. Mitoquinone (MitoQ) pretreatment relieved arsenic-induced acute liver injury and immune imbalance by activating Nrf2/HO-1 and PINK1-mediated mitophagy. To our knowledge, this is the first report identifying PINK1-mediated mitophagy as a protective factor against inorganic arsenic-induced hepatic DCs/Th1/Th2 differentiation. This study has provided new insights on the immunotoxicity of inorganic arsenic and established a foundation for exploring preventive and therapeutic strategies targeting PINK1-mediated mitophagy in acute liver injury. Consequently, the application of mitochondrial antioxidant MitoQ may offer a promising treatment for the metalloid-induced acute liver injury.

Published
2024
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2. Association between serum uric acid, hyperuricemia and periodontitis: a cross-sectional study using NHANES data

Author

Jing Xu, Yifan Jia, Zhi Mao, Xiaoxi Wei, Tianyuan Qiu, and Min Hu

Subjects
Oral health, Periodontal disease, Periodontal health, Hyperuricemia, Uric acid, Dentistry, RK1-715
Abstract

Abstract Objectives Diabetes and other metabolic diseases have been linked to the development of periodontitis, but little research has been done to determine whether serum uric acid (SUA) levels and hyperuricemia play a role. This study aimed to investigate the relationship between SUA, hyperuricemia, and periodontitis. Methods Using data from the National Health and Nutrition Examination Survey (NHANES) 2011–2014, we created a nationally representative data set. We used multivariable logistic regression models to assess the relationship between SUA, hyperuricemia, and periodontitis and presented odds ratios (OR) in women and men, respectively. Results In women, adjusted multivariable regression models showed that SUA (4.1–4.3mg/dl) was associated with higher odds of periodontitis (OR = 1.43; 95% confidence interval (CI):1.0 ~ 2.03, p = 0.047) with SUA (≤ 3.3mg/dl) as reference. The risk of periodontitis tended to increase slightly but insignificantly with increasing SUA levels, and the adverse effects occurred only when SUA increased to a certain level, and then reached a plateau. In men, the adjusted OR values for SUA (4.9–5.2mg/dl), SUA (5.3–5.5mg/dl), SUA (5.9–6.2mg/dl), and SUA (6.3–6.5mg/dl) were 0.66 (95% CI: 0.45 ~ 0.96, p = 0.029), 0.58 (95% CI: 0.40 ~ 0.85, p = 0.006), 0.67(95% CI: 0.47 ~ 0.97, p = 0.035), and 0.67 (95% CI: 0.45 ~ 0.99, p = 0.043), respectively, with SUA (≤ 4.3mg/dl) as reference. The elevated SUA levels are protective against periodontitis, but there is a range within which the risk of periodontitis decreases, followed by a non-significant tendency to increase. Conclusions The levels of SUA that are linked to the risk of periodontitis. Future prospective longitudinal studies and strategies are required to further confirm whether controlled SUA treatment is an effective adjunct to systematic periodontal therapy and whether SUA can be used as a diagnostic biomarker to assess the risk or progression of periodontitis.

Published
2023
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3. The role of retinoic acid receptor-related orphan receptors in skeletal diseases

Author

Yifan Zhang, Jun Ma, Xingfu Bao, Min Hu, and Xiaoxi Wei

Subjects
RORs, bone homeostasis, osteoporosis, rheumatoid arthritis, osteoarthritis, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Bone homeostasis, depending on the balance between bone formation and bone resorption, is responsible for maintaining the proper structure and function of the skeletal system. As an important group of transcription factors, retinoic acid receptor-related orphan receptors (RORs) have been reported to play important roles in bone homeostasis by regulating the transcription of target genes in skeletal cells. On the other hand, the dysregulation of RORs often leads to various skeletal diseases such as osteoporosis, rheumatoid arthritis (RA), and osteoarthritis (OA). Herein, we summarized the roles and mechanisms of RORs in skeletal diseases, aiming to provide evidence for potential therapeutic strategies.

Published
2023
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4. Temporal and spatial assembly of inner ear hair cell ankle link condensate through phase separation

Author

Huang Wang, Haibo Du, Rui Ren, Tingting Du, Lin Lin, Zhe Feng, Dange Zhao, Xiaoxi Wei, Xiaoyan Zhai, Hongyang Wang, Tingting Dong, Jin-Peng Sun, Hao Wu, Zhigang Xu, and Qing Lu

Subjects
Science
Abstract

In this work, the authors demonstrate that LLPS of the quaternary USH2 protein complex initiates the formation of stereociliary ankle link condensates, providing insights into the pathogenesis of deafness.

Published
2023
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5. Cardiac biophysical detailed synergetic modality rendering and visible correlation

Author

Fei Yang, Xiaoxi Wei, Bo Chen, Chenxi Li, Dong Li, Shugang Zhang, Weigang Lu, and Lei Zhang

Subjects
cardiac synergetic configuration, biophysical detail, WebGL-based rendering, interactive configuration histogram, physical and electrophysiological correlation, Physiology, QP1-981
Abstract

The heart is a vital organ in the human body. Research and treatment for the heart have made remarkable progress, and the functional mechanisms of the heart have been simulated and rendered through the construction of relevant models. The current methods for rendering cardiac functional mechanisms only consider one type of modality, which means they cannot show how different types of modality, such as physical and physiological, work together. To realistically represent the three-dimensional synergetic biological modality of the heart, this paper proposes a WebGL-based cardiac synergetic modality rendering framework to visualize the cardiac physical volume data and present synergetic correspondence rendering of the cardiac electrophysiological modality. By constructing the biological detailed interactive histogram, users can implement local details rendering for the heart, which could reveal the cardiac biology details more clearly. We also present cardiac physical-physiological correlation visualization to explore cardiac biological association characteristics. Experimental results show that the proposed framework can provide favorable cardiac biological detailed synergetic modality rendering results in terms of both effectiveness and efficiency. Compared with existing methods, the framework can facilitate the study of the internal mechanism of the heart and subsequently deduce the process of initiation, development, and transformation from a healthy heart to an ill one, and thereby improve the diagnosis and treatment of cardiac disorders.

Published
2023
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6. Postnatal Craniofacial Skeletal Development of Female C57BL/6NCrl Mice

Author

Xiaoxi Wei, Neil Thomas, Nan E. Hatch, Min Hu, and Fei Liu

Subjects
cranial base, synchondroses, postnatal, craniofacial, mouse, bone, Physiology, QP1-981
Abstract

The craniofacial skeleton is a complex and unique structure. The perturbation of its development can lead to craniofacial dysmorphology and associated morbidities. Our ability to prevent or mitigate craniofacial skeletal anomalies is at least partly dependent on our understanding of the unique physiological development of the craniofacial skeleton. Mouse models are critical tools for the study of craniofacial developmental abnormalities. However, there is a lack of detailed normative data of mouse craniofacial skeletal development in the literature. In this report, we employed high-resolution micro-computed tomography (μCT) in combination with morphometric measurements to analyze the postnatal craniofacial skeletal development from day 7 (P7) through day 390 (P390) of female C57BL/6NCrl mice, a widely used mouse strain. Our data demonstrates a unique craniofacial skeletal development pattern in female C57BL/6NCrl mice, and differentiates the early vs. late craniofacial growth patterns. Additionally, our data documents the complex and differential changes in bone parameters (thickness, bone volume, bone volume/tissue volume, bone mineral density, and tissue mineral density) of various craniofacial bones with different embryonic origins and ossification mechanisms during postnatal growth, which underscores the complexity of craniofacial bone development and provides a reference standard for future quantitative analysis of craniofacial bones.

Published
2017
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10. 2021 BEETL Competition: Advancing Transfer Learning for Subject Independence & Heterogenous EEG Data Sets.

Author

Xiaoxi Wei, A. Aldo Faisal, Moritz Grosse-Wentrup, Alexandre Gramfort, Sylvain Chevallier, Vinay Jayaram, Camille Jeunet, Stylianos Bakas, Siegfried Ludwig, Konstantinos Barmpas, Mehdi Bahri, Yannis Panagakis, Nikolaos A. Laskaris, Dimitrios A. Adamos, Stefanos Zafeiriou, William C. Duong, Stephen M. Gordon, Vernon J. Lawhern, Maciej Sliwowski, Vincent Rouanne, and Piotr Tempczyk

Published
2021

13. 2021 BEETL Competition: Advancing Transfer Learning for Subject Independence & Heterogenous EEG Data Sets.

Author

Xiaoxi Wei, A. Aldo Faisal, Moritz Grosse-Wentrup, Alexandre Gramfort, Sylvain Chevallier, Vinay Jayaram, Camille Jeunet, Stylianos Bakas, Siegfried Ludwig, Konstantinos Barmpas, Mehdi Bahri, Yannis Panagakis, Nikolaos A. Laskaris, Dimitrios A. Adamos, Stefanos Zafeiriou, William C. Duong, Stephen M. Gordon, Vernon J. Lawhern, Maciej Sliwowski, Vincent Rouanne, and Piotr Tempczyk

Published
2022

15. Disruption of Cdh23 exon 68 splicing leads to progressive hearing loss in mice by affecting tip-link stability.

Author

Nana Li, Shuang Liu, Dange Zhao, Haibo Du, Yuehui Xi, Xiaoxi Wei, Qingling Liu, Müller, Ulrich, Qing Lu, Wei Xiong, and Zhigang Xu

Subjects
ALTERNATIVE RNA splicing, INNER ear, HAIR cells, NOISE-induced deafness, HEARING disorders, PHASE separation
Abstract

Inner ear hair cells are characterized by the F-actin-based stereocilia that are arranged into a staircase-like pattern on the apical surface of each hair cell. The tips of shorter-row stereocilia are connected with the shafts of their neighboring taller-row stereocilia through extracellular links named tip links, which gate mechano-electrical transduction (MET) channels in hair cells. Cadherin 23 (CDH23) forms the upper part of tip links, and its cytoplasmic tail is inserted into the so-called upper tip-link density (UTLD) that contains other proteins such as harmonin. The Cdh23 gene is composed of 69 exons, and we show here that exon 68 is subjected to hair cell--specific alternative splicing. Tip-link formation is not affected in genetically modified mutant mice lacking Cdh23 exon 68. Instead, the stability of tip links is compromised in the mutants, which also suffer from progressive and noise-induced hearing loss. Moreover, we show that the cytoplasmic tail of CDH23(+68) but not CDH23(-68) cooperates with harmonin in phase separation--mediated condensate formation. In conclusion, our work provides evidence that inclusion of Cdh23 exon 68 is critical for the stability of tip links through regulating condensate formation of UTLD components. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Expression of Cre recombinase in chondrocytes causes abnormal craniofacial and skeletal development

Author

Shuqun Qi, Yating Wang, Xiaoxi Wei, Di Xie, Rawan Mohsen, Yuan-Lynn Hsieh, Yuji Mishina, and Fei Liu

Subjects
Skull Base, Mice, Chondrocytes, Integrases, Doxycycline, Genetics, Animals, Mice, Transgenic, Animal Science and Zoology, Agronomy and Crop Science, Biotechnology
Abstract

The cranial base synchondroses are growth centers that drive cranial and upper facial growth. The intersphenoid synchondrosis (ISS) and the spheno-occipital synchondrosis (SOS) are two major synchondroses located in the middle of the cranial base and are maintained at early developmental stages to sustain cranial base elongation. In this study, we report unexpected premature ossification of ISS and SOS when Cre recombinase is activated in a chondrocyte-specific manner. We used a Cre transgenic line expressing Aggrecan enhancer-driven, Tetracycline-inducible Cre (ATC), of which expression is controlled by a Col2a1 promoter. Neonatal doxycycline injection or doxycycline diet fed to breeders was used to activate Cre recombinase. The premature ossification of ISS and/or SOS led to a reduction in cranial base length and subsequently a dome-shaped skull. Furthermore, the mice carrying either heterozygous or homozygous conditional deletion of Tsc1 or Fip200 using ATC mice developed similar craniofacial abnormalities, indicating that Cre activity itself but not conditional deletion of Tsc1 or Fip200 gene, is the major contributor of this phenotype. In contrast, the Col2a1-Cre mice carrying Cre expression in both perichondrium and chondrocytes and the mice carrying the conditional deletion of Tsc1 or Fip200 using Col2a1-Cre did not manifest the same skull abnormalities. In addition to the defective craniofacial bone development, our data also showed that the Cre activation in chondrocytes significantly compromised bone acquisition in femur. Our data calls for the consideration of the potential in vivo adverse effects caused by Cre expression in chondrocytes and reinforcement of the importance of including Cre-containing controls to facilitate accurate phenotype interpretation in transgenic research.

Published
2022

17. A novel heterozygous missense variant of the ARID4A gene identified in Han Chinese families with schizophrenia-diagnosed siblings that interferes with DNA-binding activity

Author

Decheng Ren, Xiaoxi Wei, Lin Lin, Fan Yuan, Yan Bi, Zhenming Guo, Liangjie Liu, Lei Ji, Xiao Yang, Ke Han, Fengping Yang, Xi Wu, Xingwang Li, Zhenghui Yi, Yifeng Xu, Changqun Cai, Peng Wang, Weidong Li, Lin He, Daizhan Zhou, Tao Yu, Yi Shi, Qing Lu, and Guang He

Subjects
China, Cellular and Molecular Neuroscience, Psychiatry and Mental health, HEK293 Cells, Siblings, Mutation, Missense, Schizophrenia, Humans, DNA, Molecular Biology, Retinoblastoma-Binding Protein 1
Abstract

ARID4A plays an important role in regulating gene expression and cell proliferation. ARID4A belongs to the AT-rich interaction domain (ARID)-containing family, and a PWWP domain immediately precedes its ARID region. The molecular mechanism and structural basis of ARID4A are largely unknown. Whole-exome sequencing (WES) revealed that a novel heterozygous missense variant, ARID4A c.1231 C G (p.His411Asp), was associated with schizophrenia (SCZ) in this study. We determined the crystal structure of the PWWP-ARID tandem at 2.05 Å, revealing an unexpected mode in which ARID4A assembles with its PWWP and ARID from a structural and functional supramodule. Our results further showed that compared with the wild type, the p.His411Asp ARID mutant protein adopts a less compact conformation and exhibits a weaker dsDNA-binding ability. The p.His411Asp mutation decreased the number of cells that were arrested in the G0-G1 phase and caused more cells to progress to the G2-M phase. In addition, the missense mutation promoted the proliferation of HEK293T cells. In conclusion, our data provide evidence that ARID4A p.His411Asp could cause a conformational change in the ARID4A ARID domain, influence the DNA binding function, and subsequently disturb the cell cycle arrest in the G1 phase. ARID4A is likely a susceptibility gene for SCZ; thus, these findings provide new insight into the role of ARID4A in psychiatric disorders.

Published
2022

18. Structurally divergent and recurrently mutated regions of primate genomes

Author

Yafei Mao, William T. Harvey, David Porubsky, Katherine M. Munson, Kendra Hoekzema, Alexandra P. Lewis, Peter A. Audano, Allison Rozanski, Xiangyu Yang, Shilong Zhang, David S. Gordon, Xiaoxi Wei, Glennis A. Logsdon, Marina Haukness, Philip C. Dishuck, Hyeonsoo Jeong, Ricardo del Rosario, Vanessa L. Bauer, Will T. Fattor, Gregory K. Wilkerson, Qing Lu, Benedict Paten, Guoping Feng, Sara L. Sawyer, Wesley C. Warren, Lucia Carbone, and Evan E. Eichler

Subjects
Article
Abstract

To better understand the pattern of primate genome structural variation, we sequenced and assembled using multiple long-read sequencing technologies the genomes of eight nonhuman primate species, including New World monkeys (owl monkey and marmoset), Old World monkey (macaque), Asian apes (orangutan and gibbon), and African ape lineages (gorilla, bonobo, and chimpanzee). Compared to the human genome, we identified 1,338,997 lineage-specific fixed structural variants (SVs) disrupting 1,561 protein-coding genes and 136,932 regulatory elements, including the most complete set of human-specific fixed differences. Across 50 million years of primate evolution, we estimate that 819.47 Mbp or ~27% of the genome has been affected by SVs based on analysis of these primate lineages. We identify 1,607 structurally divergent regions (SDRs) wherein recurrent structural variation contributes to creating SV hotspots where genes are recurrently lost (CARDs,ABCD7,OLAH) and new lineage-specific genes are generated (e.g.,CKAP2,NEK5) and have become targets of rapid chromosomal diversification and positive selection (e.g.,RGPDs). High-fidelity long-read sequencing has made these dynamic regions of the genome accessible for sequence-level analyses within and between primate species for the first time.

Published
2023

19. A bioinspired and chemically defined alternative to dimethyl sulfoxide for the cryopreservation of human hematopoietic stem cells

Author

Xiaoxi Wei, Adam Childs, Alvin Hui, Gaomai Yang, Andrea Callegari, Marcus O. Muench, Justin Mai, Miranda Luarca, Karla I. Medina, Mark Kline, Philip J. Norris, Renata Gilfanova, and Alan G. Gutierrez

Subjects
0301 basic medicine, Cell Survival, CD34, Antigens, CD34, 030204 cardiovascular system & hematology, Cryopreservation, Mice, 03 medical and health sciences, chemistry.chemical_compound, Cryoprotective Agents, Technical Report, 0302 clinical medicine, medicine, Animals, Humans, Dimethyl Sulfoxide, Progenitor cell, Transplantation, Dimethyl sulfoxide, business.industry, Hematology, Translational research, Hematopoietic Stem Cells, Stem-cell research, Cell biology, Haematopoiesis, 030104 developmental biology, medicine.anatomical_structure, chemistry, Bone marrow, Stem cell, business, Whole Bone Marrow
Abstract

The cryopreservation of hematopoietic cells using dimethyl sulfoxide (DMSO) and serum is a common procedure used in transplantation. However, DMSO has clinical and biological side effects due to its toxicity, and serum introduces variation and safety risks. Inspired by natural antifreeze proteins, a novel class of ice-interactive cryoprotectants was developed. The corresponding DMSO-, protein-, and serum-free cryopreservation media candidates were screened through a series of biological assays using human cell lines, peripheral blood cells, and bone marrow cells. XT-Thrive-A and XT-Thrive-B were identified as lead candidates to rival cryopreservation with 10% DMSO in serum based on post-thaw cell survival and short-term proliferation assays. The effectiveness of the novel cryopreservation media in freezing hematopoietic stem cells from human whole bone marrow was assessed by extreme limiting dilution analysis in immunodeficient mice. Stem cell frequencies were measured 12 weeks after transplant based on bone marrow engraftment of erythroid, myeloid, B-lymphoid, and CD34+ progenitors measured by flow cytometry. The recovered numbers of cryopreserved stem cells were similar among XT-Thrive A, XT-Thrive B, and DMSO with serum groups. These findings show that cryoprotectants developed through biomimicry of natural antifreeze proteins offers a substitute for DMSO-based media for the cryopreservation of hematopoietic stem cells.

Published
2021

20. Tensile force promotes osteogenic differentiation via ephrinB2-EphB4 signaling pathway in orthodontic tooth movement

Author

Hang Yu, Xiaoxi Wei, Zhina Wu, Huan Jiang, Huichuan Qi, Yi Zhang, and Min Hu

Abstract

In orthodontic treatment, alveolar bone remodeling is the basis of tooth movement, therefore, exploring the impact of mechanical force on bone remodeling and related signaling pathways are of great importance. EphrinB2-EphB4 bidirectional signaling plays an important role in communication between osteoblasts and osteoclasts. However, whether ephrinB2-EphB4 signaling is involved in the osteogenic differentiation promoted by tensile force (TF) is unclear. Therefore, in this study, we first explored the effect of TF on osteogenic differentiation in cells, and found that TF significantly increased the expression levels of RUNX2, OPN and EphB4 in MC3T3-E1 cells, but when ephrinB2-EphB4 signaling was blocked by NVP-BHG712, TF-induced promotion of osteogenic differentiation was inhibited. Then we established a rat orthodontic tooth movement (OTM) model, through Micro CT and H&E staining, we found that TF improved alveolar bone formation through ephrinB2-EphB4 signaling.MAPK members are involved in osteogenic differentiation, and we found that TF promoted the expression of p-ERK1/2, p-P38 and p-JNK1/2/3. When EphB4 receptor was blocked, the expression of p-ERK1/2 promoted by TF was decreased, and it was the downstream pathway of ephrinB2-EphB4 signaling that mediates TF-induced promotion of osteogenic differentiation in MC3T3-E1 cells.

Published
2022

23. Chondrocyte Tsc1 controls cranial base bone development by restraining the premature differentiation of synchondroses

Author

Daniela Baccelli Silveira Mendonça, Yating Wang, Nan E. Hatch, Di Xie, Honghao Zhang, Shuqun Qi, Xiaoxi Wei, Yuji Mishina, Fei Liu, and Yuan-Lynn Hsieh

Subjects
Bone growth, Skull Base, Histology, Indian hedgehog, Physiology, Endocrinology, Diabetes and Metabolism, Synchondrosis, Parathyroid hormone, Cell Differentiation, mTORC1, Biology, biology.organism_classification, Chondrocyte, Article, Cell biology, Skull, Mice, medicine.anatomical_structure, Chondrocytes, Osteogenesis, medicine, Animals, Hedgehog Proteins, Endochondral ossification
Abstract

Cranial base bones are formed through endochondral ossification. Synchondroses are growth plates located between cranial base bones that facilitate anterior-posterior growth of the skull. Coordinated proliferation and differentiation of chondrocytes in cranial base synchondroses is essential for cranial base bone growth. Herein, we report that constitutive activation of the mechanistic target of rapamycin complex 1 (mTORC1) signaling via Tsc1 (Tuberous sclerosis 1) deletion in chondrocytes causes abnormal skull development with decreased size and rounded shape. In contrast to decreased anterior-posterior growth of the cranial base, mutant mice also exhibited significant expansion of cranial base synchondroses including the intersphenoid synchondrosis (ISS) and the spheno-occipital synchondrosis (SOS). Cranial base synchondrosis expansion in TSC1-deficient mice was accounted for by an expansion of the resting zone due to increased cell number and size without alteration in cell proliferation. Furthermore, our data showed that mTORC1 activity is inhibited in the resting and proliferating zone chondrocytes of wild type mice, and Tsc1 deletion activated mTORC1 signaling of the chondrocytes in the resting zone area. Consequently, the chondrocytes in the resting zone of TSC1-deficient mice acquired characteristics generally attributed to pre-hypertrophic chondrocytes including high mTORC1 activity, increased cell size, and increased expression level of PTH1R (Parathyroid hormone 1 receptor) and IHH (Indian hedgehog). Lastly, treatment with rapamycin, an inhibitor of mTORC1, rescued the abnormality in synchondroses. Our results established an important role for TSC1-mTORC1 signaling in regulating cranial base bone development and showed that chondrocytes in the resting zone of synchondroses are maintained in an mTORC1-inhibitory environment.

Published
2021

24. Autophagy Regulates Craniofacial Bone Acquisition

Author

Han Kyoung Choi, Li Wang, Xiaoxi Wei, Yuji Mishina, Neil Thomas, Fei Liu, and Jun-Lin Guan

Subjects
0301 basic medicine, medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, ATG5, Mice, Transgenic, 030209 endocrinology & metabolism, Calvaria, Biology, Facial Bones, Article, Mice, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Internal medicine, Cranial vault, Autophagy, medicine, Animals, Orthopedics and Sports Medicine, Bone Development, Skull, Frontal bone, medicine.anatomical_structure, 030101 anatomy & morphology, Parietal bone, Homeostasis
Abstract

Increasing evidence has demonstrated the important role of autophagy in skeletal homeostasis; however, the role of autophagy in craniofacial bone development and acquisition is largely unknown. In this study, we investigated the effect of autophagy suppression on craniofacial bone acquisition by deleting Fip200 or Atg5, two essential autophagy genes, using Osterix-Cre (Osx-Cre). We found that the Osx-Cre transgene mildly decreased the bone mass of parietal bone but not frontal bone, and did not affect cranial base bone mass in adult mice. In the cranial vault, Fip200 or Atg5 deletion similarly decreased 50% bone mass of neural crest-derived frontal bone; Atg5 deletion decreased 50% and Fip200 deletion decreased 30% bone mass of mesoderm-derived parietal bone. In the cranial base, Fip200 or Atg5 deletion similarly decreased 30% bone mass of neural crest-derived presphenoid bone; Atg5 deletion decreased 30% and Fip200 deletion decreased 16% bone mass of mesoderm-derive basioccipital bone. Lastly, we used doxycycline treatment to inhibit the Osx-Cre expression until two months of age and showed that postnatal Fip200 deletion led to cranial vault bone mass decrease in association with a small increase in both bone volume/tissue volume and tissue mineral density. Altogether, this study demonstrated the important role of autophagy in craniofacial bone acquisition during development and postnatal growth.

Published
2019

25. Tsc1 Regulates the Balance Between Osteoblast and Adipocyte Differentiation Through Autophagy/Notch1/β‐Catenin Cascade

Author

Hebao Yuan, Fang Fang, Fei Liu, Han Kyoung Choi, Jun-Lin Guan, Qing Li, Xiaoxi Wei, and Lu Liu

Subjects
0301 basic medicine, congenital, hereditary, and neonatal diseases and abnormalities, Stromal cell, Endocrinology, Diabetes and Metabolism, Down-Regulation, Bone Marrow Cells, Mice, Transgenic, Mechanistic Target of Rapamycin Complex 1, Models, Biological, Article, Tuberous Sclerosis Complex 1 Protein, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Downregulation and upregulation, Bone Marrow, Osteogenesis, Adipocyte, Adipocytes, Autophagy, medicine, Animals, Orthopedics and Sports Medicine, Femur, beta Catenin, Adipogenesis, Osteoblasts, Receptors, Notch, Chemistry, Macrophage Colony-Stimulating Factor, Wnt signaling pathway, Cell Differentiation, Osteoblast, Organ Size, Cell biology, Mice, Inbred C57BL, 030104 developmental biology, medicine.anatomical_structure, Sp7 Transcription Factor, 030220 oncology & carcinogenesis, Catenin, Cancellous Bone, Bone marrow, Gene Deletion, Signal Transduction
Abstract

A reduction in trabecular bone mass is often associated with an increase in marrow fat in osteoporotic bones. The molecular mechanisms underlying this inverse correlation are incompletely understood. Here, we report that mice lacking tuberous sclerosis 1 (Tsc1) in Osterix-expressing cells had a significant decrease in trabecular bone mass characterized by decreased osteoblastogenesis, increased osteoclastogenesis, and increased bone marrow adiposity in vivo. In vitro study showed that Tsc1-deficient bone marrow stromal cells (BMSCs) had decreased proliferation, decreased osteogenic differentiation, and increased adipogenic differentiation in association with the downregulation of Wnt/β-catenin signaling. Mechanistically, TSC1 deficiency led to autophagy suppression and consequent Notch1 protein increase, which mediated the GSK3β-independent β-catenin degradation. Together, our results indicate that Tsc1 controls the balance between osteoblast and adipocyte differentiation of BMSCs. © 2018 American Society for Bone and Mineral Research.

Published
2018

26. FAK Promotes Osteoblast Progenitor Cell Proliferation and Differentiation by Enhancing Wnt Signaling

Author

Paul H. Krebsbach, Hebao Yuan, Xiaoxi Wei, Chunhui Sun, Fei Liu, Jun-Lin Guan, Linford Williams, and Li Wang

Subjects
0301 basic medicine, Beta-catenin, biology, Chemistry, Endocrinology, Diabetes and Metabolism, Cellular differentiation, Wnt signaling pathway, Osteoblast, Cell biology, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Adipogenesis, 030220 oncology & carcinogenesis, biology.protein, medicine, Orthopedics and Sports Medicine, Bone marrow, Progenitor cell, Stem cell
Abstract

Decreased bone formation is often associated with increased bone marrow adiposity. The molecular mechanisms that are accountable for the negative correlation between bone mass and bone marrow adiposity are incompletely understood. Focal adhesion kinase (FAK) has critical functions in proliferation and differentiation of many cell types; however, its roles in osteoblast lineage cells are largely unknown. We show herein that mice lacking FAK in Osterix-expressing cells exhibited decreased osteoblast number and low bone mass as well as increased bone marrow adiposity. The decreased bone mass in FAK-deficient mice was accounted for by decreased proliferation, compromised osteogenic differentiation, and increased adipogenic differentiation of bone marrow Osterix-expressing cells resulting from downregulation of Wnt/β-catenin signaling due to the reduced expression of canonical Wnt ligands. In contrast, FAK loss in calvarial preosteoblasts had no adverse effect on their proliferation and osteogenic differentiation and these cells had intact Wnt/β-catenin signaling. © 2016 American Society for Bone and Mineral Research.

Published
2016

28. Mid-facial developmental defects caused by the widely used LacZ reporter gene when expressed in neural crest-derived cells

Author

Xiaoxi Wei, Min Hu, and Fei Liu

Subjects
0301 basic medicine, Genetically modified mouse, Male, Transgene, Developmental Disabilities, lac operon, Cre recombinase, Mice, Transgenic, Biology, Article, 03 medical and health sciences, Mice, In vivo, Genes, Reporter, Genetics, Animals, Cell Lineage, Gene, Reporter gene, Integrases, Neural crest, Cell biology, Mice, Inbred C57BL, 030104 developmental biology, Lac Operon, Neural Crest, Face, Animal Science and Zoology, Female, Agronomy and Crop Science, Myelin P0 Protein, Biotechnology
Abstract

Reporter genes play important roles in transgenic research. LacZ is a widely used reporter gene that encodes Escherichia coli β-galactosidase, an enzyme that is well known for its ability to hydrolyze X-gal into a blue product. It is unknown whether transgenic LacZ has any adverse effects. R26R reporter mice, containing a LacZ reporter gene, were generated to monitor the in vivo recombination activity of various transgenic Cre recombinase via X-gal staining. P0-Cre is expressed in neural crest-derived cells, which give rise to the majority of the craniofacial bones. Herein, we report that 12% of the R26R reporter mice harboring P0-Cre had unexpected mid-facial developmental defects manifested by the asymmetrical growth of some facial bones, thus resulting in tilted mid-facial structure, shorter skull length, and malocclusion. Histological examination showed a disorganization of the frontomaxillary suture, which may at least partly explain the morphological defect in affected transgenic mice. Our data calls for the consideration of the potential in vivo adverse effects caused by transgenic β-galactosidase.

Published
2018

29. A Padé compact high-order finite volume scheme for nonlinear Schrödinger equations

Author

Hong Li, XiaoXi Wei, Yang Liu, and Wei Gao

Subjects
Numerical Analysis, Finite volume method, Applied Mathematics, Mathematical analysis, Order of accuracy, Finite volume method for one-dimensional steady state diffusion, Computational Mathematics, Nonlinear system, symbols.namesake, Fourier transform, Fourier analysis, symbols, Padé approximant, Temporal discretization, Mathematics
Abstract

In this work, a Pade compact high-order finite volume scheme is presented for the solution of one-dimensional nonlinear Schrodinger equations. The compact high-order finite volume schemes posses inherent conservation of the equations and high order accuracy within small stencils. Fourier error analysis demonstrates that the spectral resolution of the Pade compact finite volume scheme exceeds that of the standard finite volume schemes in terms of the same order of accuracy. Besides, the linear stability of the temporal discretization scheme is also performed by using the Fourier analysis. Numerical results are obtained for the nonlinear Schrodinger equations with various initial and boundary conditions, which manifests high accuracy and validity of the Pade compact finite volume scheme.

Published
2014

30. Postnatal Craniofacial Skeletal Development of Female C57BL/6NCrl Mice

Author

Fei Liu, Nan E. Hatch, Xiaoxi Wei, Min Hu, and Neil Thomas

Subjects
0301 basic medicine, Physiology, Biology, craniofacial, bone, lcsh:Physiology, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), medicine, Craniofacial skeleton, Craniofacial, Postnatal growth, mouse, Original Research, Bone mineral, Craniofacial bone, postnatal, lcsh:QP1-981, Ossification, 030206 dentistry, Anatomy, C57BL/6NCrl, cranial base, 030104 developmental biology, Mineral density, μCT, synchondroses, medicine.symptom, Tissue volume
Abstract

The craniofacial skeleton is a complex and unique structure. The perturbation of its development can lead to craniofacial dysmorphology and associated morbidities. Our ability to prevent or mitigate craniofacial skeletal anomalies is at least partly dependent on our understanding of the unique physiological development of the craniofacial skeleton. Mouse models are critical tools for the study of craniofacial developmental abnormalities. However, there is a lack of detailed normative data of mouse craniofacial skeletal development in the literature. In this report, we employed high-resolution micro-computed tomography (μCT) in combination with morphometric measurements to analyze the postnatal craniofacial skeletal development from day 7 (P7) through day 390 (P390) of female C57BL/6NCrl mice, a widely used mouse strain. Our data demonstrates a unique craniofacial skeletal development pattern in female C57BL/6NCrl mice, and differentiates the early vs. late craniofacial growth patterns. Additionally, our data documents the complex and differential changes in bone parameters (thickness, bone volume, bone volume/tissue volume, bone mineral density, and tissue mineral density) of various craniofacial bones with different embryonic origins and ossification mechanisms during postnatal growth, which underscores the complexity of craniofacial bone development and provides a reference standard for future quantitative analysis of craniofacial bones.

Published
2017
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32. Aromatic Oligoamide Macrocycles with a Backbone of Reduced Constraint

Author

Xiaoxi Wei, Bing Gong, and Mark Kline

Subjects
Ions, Macrocyclic Compounds, Magnetic Resonance Spectroscopy, Molecular Structure, Hydrogen bond, Chemistry, Organic Chemistry, Solid-state, Hydrogen Bonding, Amides, Biochemistry, Polymer chemistry, Side chain, Physical and Theoretical Chemistry, Guanidine
Abstract

Oligoamide macrocycles with a backbone partially constrained by hydrogen bonds have been prepared. These macrocycles, carrying multiple H-bonding side chains, underwent strong aggregation in solution and form long fibers in the solid state. In contrast to the strong and specific complexation of the guanidinium ion by analogous macrocycles with fully H-bond-constrained backbones, these macrocycles failed to recognize the same cation, indicating that reducing backbone constraint has led to a drastic change in their cavity.

Published
2013

34. Proline 107 Is a Major Determinant in Maintaining the Structure of the Distal Pocket and Reactivity of the High-Spin Heme of MauG

Author

Manliang Feng, Xiaoxi Wei, Carrie M. Wilmot, Erik T. Yukl, Aimin Liu, Victor L. Davidson, and Lyndal M. R. Jensen

Subjects
Hemeproteins, Models, Molecular, Proline, Stereochemistry, Heme, Crystallography, X-Ray, Ligands, Dithionite, Biochemistry, Catalysis, Mass Spectrometry, Article, Cofactor, chemistry.chemical_compound, Bacterial Proteins, Tryptophan tryptophylquinone, Methylamine dehydrogenase, Indolequinones, Paracoccus denitrificans, Oxidoreductases Acting on CH-NH Group Donors, biology, Ligand, Tryptophan, biology.organism_classification, Oxygen, Kinetics, chemistry, Mutagenesis, Site-Directed, biology.protein, Oxidation-Reduction
Abstract

The diheme enzyme MauG catalyzes a six-electron oxidation required for posttranslational modification of a precursor of methylamine dehydrogenase (preMADH) to complete the biosynthesis of its protein-derived tryptophan tryptophylquinone (TTQ) cofactor. Crystallographic studies had shown that Pro107, which resides in the distal pocket of the high-spin heme of MauG, changes conformation upon binding of CO or NO to the heme iron. In this study, Pro107 was converted to Cys, Val, and Ser by site-directed mutagenesis. The structures of each of these MauG mutant proteins in complex with preMADH were determined, as were their physical and catalytic properties. P107C MauG was inactive, and the crystal structure revealed that Cys107 had been oxidatively modified to a sulfinic acid. Mass spectrometry revealed that this modification was present prior to crystallization. P107V MauG exhibited spectroscopic and catalytic properties that were similar to those of wild-type MauG, but P107V MauG was more susceptible to oxidative damage. The P107S mutation caused a structural change that resulted in the five-coordinate high-spin heme being converted to a six-coordinate heme with a distal axial ligand provided by Glu113. EPR and resonance Raman spectroscopy revealed this heme remained high-spin but with greatly increased rhombicity as compared to that of the axialmore » signal of wild-type MauG. P107S MauG was resistant to reduction by dithionite and reaction with H{sub 2}O{sub 2} and unable to catalyze TTQ biosynthesis. These results show that the presence of Pro107 is critical in maintaining the proper structure of the distal heme pocket of the high-spin heme of MauG, allowing exogenous ligands to bind and directing the reactivity of the heme-activated oxygen during catalysis, thus minimizing the oxidation of other residues of MauG.« less

Published
2012

35. A mixed finite element method with exactly divergence-free velocities for incompressible magnetohydrodynamics

Author

Chen Greif, Dominik Schötzau, Xiaoxi Wei, and Dan Li

Subjects
Discretization, Mechanical Engineering, Mathematical analysis, Computational Mechanics, General Physics and Astronomy, Mixed finite element method, Lipschitz continuity, Finite element method, Computer Science Applications, Polyhedron, Mechanics of Materials, Discontinuous Galerkin method, Norm (mathematics), Vector field, Mathematics
Abstract

We introduce and analyze a mixed finite element method for the numerical discretization of a stationary incompressible magnetohydrodynamics problem, in two and three dimensions. The velocity field is discretized using divergence-conforming Brezzi–Douglas–Marini (BDM) elements and the magnetic field is approximated by curl-conforming Nedelec elements. The H 1 -continuity of the velocity field is enforced by a DG approach. A central feature of the method is that it produces exactly divergence-free velocity approximations, and captures the strongest magnetic singularities. We prove that the energy norm error is convergent in the mesh size in general Lipschitz polyhedra under minimal regularity assumptions, and derive nearly optimal a priori error estimates for the two-dimensional case. We present a comprehensive set of numerical experiments, which indicate optimal convergence of the proposed method for two-dimensional as well as three-dimensional problems.

Published
2010

38. A Mouse Model of Craniofacial Bone Lesion of Tuberous Sclerosis Complex

Author

Fei Liu, Fang Fang, Min Hu, and Xiaoxi Wei

Subjects
congenital, hereditary, and neonatal diseases and abnormalities, 0303 health sciences, Pathology, medicine.medical_specialty, biology, business.industry, Osteoblast, mTORC1, medicine.disease, Article, Lesion, 03 medical and health sciences, Tuberous sclerosis, 0302 clinical medicine, medicine.anatomical_structure, 030220 oncology & carcinogenesis, biology.protein, Medicine, TSC1, medicine.symptom, TSC2, business, Mechanistic target of rapamycin, PI3K/AKT/mTOR pathway, 030304 developmental biology
Abstract

The mammalian/mechanistic target of rapamycin (mTOR) signaling pathway plays critical roles in skeletal development. The impact and underlying mechanisms of its dysregulation in bone homeostasis is poorly defined. The best known and characterized mTOR signaling dysregulation in human disease is called Tuberous Sclerosis Complex (TSC). TSC is an autosomal dominant neurocutaneous syndrome with a high frequency (>66%) of osseous manifestations such as sclerotic lesions in the craniofacial region. TSC is caused by mutations of TSC1 or TSC2, the heterodimer protein inhibitor of mTORC1 signaling. The underlying mechanism of bone lesions in TSC is unclear. We generated a TSC mouse model with TSC1 deletion in neural crest derived (NCD) cells, which recapitulated the sclerotic craniofacial bone lesion in TSC patients. We demonstrated that TSC1 null NCD osteoblasts overpopulated the NCD bones and the resultant increased bone formation is responsible for the sclerotic bone phenotype. Mechanistically, osteoblast number increase is due to the hyperproliferation of osteoprogenitor cells at an early postnatal stage. Noteworthy, administration of rapamycin, an mTORC1 inhibitor at early postnatal stage can completely rescue the excess bone acquisition, but late treatment cannot. Altogether, our data suggested that enhanced mTORC1 signaling in NCD cells can enlarge the osteoprogenitor pool and lead to the excess bone acquisition, which is likely the underlying mechanism of sclerotic bone lesion observed in TSC patients.

Published
2015

39. Discontinuous galerkin finite element method for a forward-backward heat equation

Author

Hong Li and Xiaoxi Wei

Subjects
Partial differential equation, Discontinuous Galerkin method, Applied Mathematics, Mathematical analysis, Finite difference method, Smoothed finite element method, Mixed finite element method, Superconvergence, Finite element method, Mathematics, Extended finite element method
Abstract

A space-time finite element method, discontinuous in time but continuous in space, is studied to solve the nonlinear forward-backward heat equation. A linearized technique is introduced in order to obtain the error estimates of the approximate solutions. And the numerical simulations are given.

Published
2005

40. Extremely strong tubular stacking of aromatic oligoamide macrocycles

Author

Kazuhiro Yamato, Frank V. Bright, Shuang Chen, Bing Gong, Rui Liu, Xiaoxi Wei, Mark Kline, Ian J. Horner, Ka Yi Yung, Xiao Cheng Zeng, Zhonghou Cai, and Si Chen

Subjects
Diffraction, 010405 organic chemistry, Chemistry, Binding energy, Stacking, General Chemistry, 010402 general chemistry, 01 natural sciences, Lower limit, 0104 chemical sciences, Dipole, Crystallography, Directionality, Transmembrane ion transport
Abstract

Aromatic oligoamide macrocycles 3 undergo extremely strong stacking in both solution and the solid state, forming tubular assemblies that further aggregate., As the third-generation rigid macrocycles evolved from progenitor 1, cyclic aromatic oligoamides 3, with a backbone of reduced constraint, exhibit extremely strong stacking with an astoundingly high affinity (estimated lower limit of K dimer > 1013 M–1 in CHCl3), which leads to dispersed tubular stacks that undergo further assembly in solution. Computational study reveals a very large binding energy (–49.77 kcal mol–1) and indicates highly cooperative local dipole interactions that account for the observed strength and directionality for the stacking of 3. In the solid-state, X-ray diffraction (XRD) confirms that the aggregation of 3 results in well-aligned tubular stacks. The persistent tubular assemblies of 3, with their non-deformable sub-nm pore, are expected to possess many interesting functions. One such function, transmembrane ion transport, is observed for 3.

Published
2014

41. Subcellular distribution of Cd and Zn and MT mRNA expression in the hepatopancreas of Sinopotamon henanense after single and co-exposure to Cd and Zn

Author

Yongji He, Lan Wang, Weixin Jing, Yongquan Li, Hao Wu, Baozhen Li, Xiaoxi Wei, and Yingjun Li

Subjects
Physiology, Brachyura, Health, Toxicology and Mutagenesis, Mrna expression, Hepatopancreas, Toxicology, Biochemistry, Metal, Transcription (biology), Metallothionein, Animals, RNA, Messenger, Differential centrifugation, Messenger RNA, biology, Dose-Response Relationship, Drug, Cell Biology, General Medicine, Anatomy, biology.organism_classification, Molecular biology, Subcellular distribution, Zinc, Gene Expression Regulation, visual_art, visual_art.visual_art_medium, Water Pollutants, Chemical, Cadmium
Abstract

The freshwater crab Sinopotamon henanense was exposed to Cd and Zn either on their own or in combination. At 14 and 28 days the hepatopancreas was taken and total metal and metallothionein MT) in transcript abundance were assessed. In addition, the subcellular contents of Cd and Zn also were examined following a differential centrifugation. The results showed that concentration of Cd was more responsive to waterborne metal exposures than the concentration of Zn; Zn was better regulated and exhibited only 2-3 fold increases relative to the control. Of the subcellular fractions, the heat stable protein (HSP) fraction was the predominant metal-binding compartment for Cd. The proportion and accumulation of Cd in this fraction increased with the single Cd exposures, which suggest that metallothionein-like proteins play a key role in metal detoxification in the hepatopancreas of S. henanense. Despite the increases in Cd in the HSP fraction during single Cd exposures, some accumulation of Cd was observed in metal sensitive fraction (MSF), which showed that metal detoxification was incomplete. The results demonstrated that the Cd content decreased in metal mixture groups especially when mixed with higher Zn, while the Cd accumulation in MSF was also reduced when Zn was added. MT mRNA expression was also determined in our report, the results showed that both Cd and Zn had the ability of inducing MT mRNA expression. Additionally, the MT mRNA transcription level was enhanced when Cd was mixed with Zn.

Published
2014

42. Self-assembling subnanometer pores with unusual mass-transport properties

Author

Kazuhiro Yamato, Xiaoxi Wei, Bai Wanli, Jun Hu, Michael J. Dabney, Hui Li, Zhifeng Shao, Frank V. Bright, Yi Gao, Bing Gong, Ruixian Cheng, Lan He, Daniel M. Czajkowsky, Futao Liu, Zhonghou Cai, Xiao Cheng Zeng, Jingfang Wang, Guande Liu, Yi Shen, Yi Liu, and Xibin Zhou

Subjects
Mass transport, Multidisciplinary, Fabrication, Nanostructure, Materials science, Stacking, General Physics and Astronomy, Nanotechnology, General Chemistry, General Biochemistry, Genetics and Molecular Biology, Nanopore, Self assembling, Transmembrane ion transport, Porous medium
Abstract

A long-standing aim in molecular self-assembly is the development of synthetic nanopores capable of mimicking the mass-transport characteristics of biological channels and pores. Here we report a strategy for enforcing the nanotubular assembly of rigid macrocycles in both the solid state and solution based on the interplay of multiple hydrogen-bonding and aromatic pi-pi stacking interactions. The resultant nanotubes have modifiable surfaces and inner pores of a uniform diameter defined by the constituent macrocycles. The self-assembling hydrophobic nanopores can mediate not only highly selective transmembrane ion transport, unprecedented for a synthetic nanopore, but also highly efficient transmembrane water permeability. These results establish a solid foundation for developing synthetically accessible, robust nanostructured systems with broad applications such as reconstituted mimicry of defined functions solely achieved by biological nanostructures, molecular sensing, and the fabrication of porous materials required for water purification and molecular separations.

Published
2012

43. Effects of dietary conjugated linoleic acids on the growth and quality of large yellow croaker fish Pseudosciaena crocea (Richardson) in cages

Author

Weiguo, Sang, Xiaoxi, Wei, and Huihui, Wu

Subjects
Random Allocation, Body Composition, Animals, Animal Nutritional Physiological Phenomena, Linoleic Acids, Conjugated, Aquaculture, Weight Gain, Animal Feed, Perciformes
Abstract

The objective of this study was to investigate the effect of conjugated linoleic acids (CLA) in artificial feeds on the growth and quality of large yellow croaker (Pseudosciaena crocea) raised in cages. Two diet formulas with dietary CLA were developed, and a diet without of CLA served as a control. The effects of CLA (2% and 4%) on average daily gain per tail (DGT), feed conversion ratio (FCR), muscle lipid, and lean body mass (LBM) for a 60-day period were evaluated. The results from two independent experiments revealed that diets with 4% CLA significantly improved DGT and FCR (p0.05). Muscle lipid significantly reduced as increase of CLA content in diets (p0.01), correspondingly, the LBM significantly increased (p0.05). This study demonstrates that CLA supplemental diet could be used to improve growth and quality of large yellow croaker raised in cages.

Published
2007

44. 57. A transmembrane mega highway for cryoprotective agent delivery via self-assembling organic nanopores with tunable function

Author

Alireza Abazari, Xiaoxi Wei, Michael Andregg, and Lindong Weng

Subjects
Transmembrane channels, Membrane permeability, Chemistry, Nanotechnology, General Medicine, General Biochemistry, Genetics and Molecular Biology, Transmembrane protein, Cell membrane, medicine.anatomical_structure, Membrane, Cryoprotective Agent, Synthetic ion channels, Biophysics, medicine, Osmotic pressure, General Agricultural and Biological Sciences
Abstract

Cryoprotective agents (CPAs) are critical additives that improve the post-thaw viability of cryopreserved biological systems by preventing ice crystal nucleation and growth. Membrane permeable CPAs also prevent osmotic shrinkage of the cells and reduce the volume of available water by penetrating and equilibrating across the cell membrane. All known CPAs exhibit various levels of cytotoxicity at their effective concentration which may be decreased by reducing the CPA loading temperature and exposure time. However, most CPAs become effectively impermeable at sub-zero temperatures. This is largely associated with the dysfunction of transmembrane protein channels at low temperature that serve as mass transport gates. An unbalanced gradient of CPA and salt across cell membrane leads to detrimental cell shrinkage as water efflux out of the cell. This could be detrimental to the fate of large, complex solid tissues/organs by damaging cell–cell and cell–matrix junctions. To facilitate the intracellular delivery and transmembrane equilibration of the CPA at sub-zero temperatures, we propose size and function tunable organic nanopores as a “mega highway” to deliver CPAs across cell membrane which allows a significant decrease in both the CPA exposure time and temperature during freezing. This method may be particularly effective when CPA loading in tissues using the “liquidus tracking” or step-wise methods where increasingly concentrated solutions of CPA are loaded in the tissue/organ at progressively decreasing temperatures. Recent work in Gong’s group has demonstrated the reliability of constructing well-defined nanotubular assemblies via the enforced stacking of shape-persistent macrocycles based on the interplay of multiple hydrogen-bonding, dipole-dipole, and aromatic π - π stacking interactions. The resultant nanotubes have modifiable surfaces and non-collapsible inner pores of a uniform diameter defined by the constituent macrocycles. The robust self-assembling nanopores have been found to act as transmembrane channels which can mediate highly selective transmembrane ion transport with high stability, unprecedented for synthetic ion channels, as well as exhibiting highly efficient transmembrane water permeability, which is comparable to aquaporin. Aquaporins have been found to efficiently assist transport of water and glycerol during freezing to prevent cell rupture under osmotic pressure. In this proposal, selected organic nanopores are delivered into a target system at physiological temperature (37 °C), followed by CPA loading at hypothermic temperature (e.g. 1 °C). A high influx rate of CPAs through shape-persistent nanopores can be maintained during cooling as a function of the concentration gradient across cell membrane, thereby reducing the required time to reach vitrification concentrations. Upon rewarming, these organic nanopores will facilitate rapid removal of CPAs to reduce exposure time and the consequent toxic side effects. The proposed incorporation of synthetic nanopores can significantly reduce toxicity and cell injury due to osmotic shrinkage caused by CPAs and salt during both the cooling and rewarming processes via (1) reducing CPA exposure time and (2) enabling rapid CPA loading and unloading at lower temperatures. Moreover, versatile functional organic nanotubes of diverse sizes and properties by modifying inner macrocyclic cavities allow selective CPA transport by while preventing ion exchange. Incorporation of functional supramolecular assemblies to enhance membrane permeability of CPAs could lead to a revolutionary solution to cryopreserve complex biological systems.

Published
2015

45. Persistent Organic Nanopores Amenable to Structural and Functional Tuning.

Author

Xiaoxi Wei, Guoqing Zhang, Yi Shen, Yulong Zhong, Rui Liu, Na Yang, Al-mkhaizim, Fayez Y., Kline, Mark A., Lan He, Minfeng Li, Zhong-Lin Lu, Zhifeng Shao, and Bing Gong

Subjects
*CHLORIDE ions, *ION analysis, *AMINO acid analysis, *ELECTROPHYSIOLOGY, *LIPID analysis
Abstract

Rigid macrocycles 2, which share a hybrid backbone and the same set of side chains while having inner cavities with different inward-pointing functional groups, undergo similar nanotubular assembly as indicated by multiple techniques including *H NMR, fluorescence spectroscopy, and atomic force microscopy. The formation of tubular assemblies containing subnanometer pores is also attested by the different transmembrane ion-transport behavior observed for these macrocycles. Vesicle-based stopped-flow kinetic assay and single-channel electrophysiology with planar lipid bilayers show that the presence of an inward-pointing functional (X) group in the inner cavity of a macrocyclic building block exerts a major influence on the transmembrane ion-transporting preference of the corresponding self-assembling pore. Self-assembling pores with inward-pointing amino and methyl groups possess the surprising and remarkable capability of rejecting protons but are conducive to transporting larger ions. The inwardpointing groups also resulted in transmembrane pores with a different extent of positive electrostatic potentials, leading to channels having different preferences for transporting chloride ion. Results from this work demonstrate that synthetic modification at the molecular level can profoundly impact the property of otherwise structurally persistent supramolecular assemblies, with both expected tunability and suprisingly unusual behavior. [ABSTRACT FROM AUTHOR]

Published
2016
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46. Preparation and helical folding of aromatic polyamides

Author

Jin Zhu, Chunxia Lian, Menglan Lv, Bao Luan, Xiaoxi Wei, Qiwei Wang, Zhongzhu Chen, Jinxin Cao, Mark Kline, Qingfei Huang, Wenrui Zhang, Jingen Deng, and Bing Gong

Subjects
chemistry.chemical_classification, Metals and Alloys, General Chemistry, Polymer, Catalysis, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Folding (chemistry), Aramid, chemistry.chemical_compound, Monomer, chemistry, Intramolecular force, Polyamide, Polymer chemistry, Materials Chemistry, Ceramics and Composites, Side chain
Abstract

Long aromatic polyamide chains are prepared from the corresponding monomers. The resultant polymer adopts a hollow helical conformation that is stabilized by intramolecular H-bonding interaction between side chains.

Published
2012

48. A Padé compact high-order finite volume scheme for nonlinear Schrödinger equations.

Author

Wei Gao, Hong Li, Yang Liu, and XiaoXi Wei

Subjects
*FINITE volume method, *SCHRODINGER equation, *NONLINEAR theories, *FOURIER analysis, *DISCRETIZATION methods, *BOUNDARY value problems
Abstract

In this work, a Padé compact high-order finite volume scheme is presented for the solution of one-dimensional nonlinear Schrödinger equations. The compact high-order finite volume schemes posses inherent conservation of the equations and high order accuracy within small stencils. Fourier error analysis demonstrates that the spectral resolution of the Padé compact finite volume scheme exceeds that of the standard finite volume schemes in terms of the same order of accuracy. Besides, the linear stability of the temporal discretization scheme is also performed by using the Fourier analysis. Numerical results are obtained for the nonlinear Schrödinger equations with various initial and boundary conditions, which manifests high accuracy and validity of the Padé compact finite volume scheme. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
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