Your search keyword '"Donglin Bai"' showing total 133 results

1. GJB4 variants linked to skin disease exhibit a trafficking deficiency en route to gap junction formation that can be restored by co-expression of select connexins

Author

Sergiu A. Lucaciu, Rhett Figliuzzi, Ruth Neumann, Samina Nazarali, Luigi Del Sordo, Stephanie E. Leighton, Alexandra Hauser, Qing Shao, Danielle Johnston, Donglin Bai, and Dale W. Laird

Subjects

connexin, epidermis, keratinocyte, trafficking, connexin 30.3 (Cx30.3), gap junctional intercellular communication, Biology (General), QH301-705.5

Abstract

Epidermal keratinocytes are enriched with at least nine connexins that are key regulators of epidermal homeostasis. The role of Cx30.3 in keratinocytes and epidermal health became evident when fourteen autosomal dominant mutations in the Cx30.3-encoding GJB4 gene were linked to a rare and incurable skin disorder called erythrokeratodermia variabilis et progressiva (EKVP). While these variants are linked to EKVP, they remain largely uncharacterized hindering therapeutic options. In this study, we characterize the expression and functional status of three EKVP-linked Cx30.3 mutants (G12D, T85P, and F189Y) in tissue-relevant and differentiation-competent rat epidermal keratinocytes. We found that GFP-tagged Cx30.3 mutants were non-functional likely due to their impaired trafficking and primary entrapment within the endoplasmic reticulum (ER). However, all mutants failed to increase BiP/GRP78 levels suggesting they were not inducing an unfolded protein response. FLAG-tagged Cx30.3 mutants were also trafficking impaired yet occasionally exhibited some capacity to assemble into gap junctions. The pathological impact of these mutants may extend beyond their trafficking deficiencies as keratinocytes expressing FLAG-tagged Cx30.3 mutants exhibited increased propidium iodide uptake in the absence of divalent cations. Attempts to rescue the delivery of trafficking impaired GFP-tagged Cx30.3 mutants into gap junctions by chemical chaperone treatment were ineffective. However, co-expression of wild type Cx30.3 greatly enhanced the assembly of Cx30.3 mutants into gap junctions, although endogenous levels of Cx30.3 do not appear to prevent the skin pathology found in patients harboring these autosomal dominant mutations. In addition, a spectrum of connexin isoforms (Cx26, Cx30, and Cx43) exhibited the differential ability to trans-dominantly rescue the assembly of GFP-tagged Cx30.3 mutants into gap junctions suggesting a broad range of connexins found in keratinocytes may favourably interact with Cx30.3 mutants. We conclude that selective upregulation of compatible wild type connexins in keratinocytes may have potential therapeutic value in rescuing epidermal defects invoked by Cx30.3 EKVP-linked mutants.

Published

2023

2. Discovery of GJC1 (Cx45) as a New Gene Underlying Congenital Heart Disease and Arrhythmias

Author

Yan-Jie Li, Juan Wang, Willy G. Ye, Xing-Yuan Liu, Li Li, Xing-Biao Qiu, Honghong Chen, Ying-Jia Xu, Yi-Qing Yang, Donglin Bai, and Ri-Tai Huang

Subjects

congenital heart disease, cardiac septal defect, arrhythmia, atrioventricular block, molecular genetics, gap junction channel, Biology (General), QH301-705.5

Abstract

As the most prevalent type of birth malformation, congenital heart disease (CHD) gives rise to substantial mortality and morbidity as well as a socioeconomic burden. Although aggregating investigations highlight the genetic basis for CHD, the genetic determinants underpinning CHD remain largely obscure. In this research, a Chinese family suffering from autosomal dominant CHD (atrial septal defect) and arrhythmias was enrolled. A genome-wide genotyping with microsatellite markers followed by linkage assay as well as sequencing analysis was conducted. The functional effects of the discovered genetic mutation were characterized by dual patch-clamp electrophysiological recordings in N2A cells and propidium iodide uptake assays in HeLa cells. As a result, a novel genetic locus for CHD and arrhythmias was located on chromosome 17q21.31-q21.33, a 4.82-cM (5.12 Mb) region between two markers of D17S1861 and D17S1795. Sequencing assays of the genes at the mapped locus unveiled a novel heterozygous mutation in the GJC1 gene coding for connexin 45 (Cx45), NM_005497.4:c.550A>G;p.R184G, which was in co-segregation with the disease in the whole family and was not observed in 516 unrelated healthy individuals or gnomAD. Electrophysiological analyses revealed that the mutation significantly diminished the coupling conductance in homomeric cell pairs (R184G/R184G) and in cell pairs expressing either R184G/Cx45 or R184G/Cx43. Propidium iodide uptake experiments demonstrated that the Cx45 R184G mutation did not increase the Cx45 hemichannel function. This investigation locates a new genetic locus linked to CHD and arrhythmias on chromosome 17q21.31-q21.33 and indicates GJC1 as a novel gene predisposing to CHD and arrhythmias, implying clinical implications for prognostic risk assessment and personalized management of patients affected with CHD and arrhythmias.

Published

2023

3. An atrial-fibrillation-linked connexin40 mutant is retained in the endoplasmic reticulum and impairs the function of atrial gap-junction channels

Author

Yiguo Sun, Xiaoling Tong, Honghong Chen, Tao Huang, Qing Shao, Weixiong Huang, Dale W. Laird, and Donglin Bai

Subjects

Atrial fibrillation, Genetics, Gap junctions, Connexin40, Germline mutation, Medicine, Pathology, RB1-214

Abstract

Connexin40 (Cx40)-containing gap-junction channels are expressed in the atrial myocardium and provide a low-resistance passage for rapid impulse propagation. A germline mutation in the GJA5 gene, which encodes Cx40, resulting in a truncated Cx40 (Q49X) was identified in a large Chinese family with lone (idiopathic) atrial fibrillation (AF). This mutation co-segregated with seven AF probands in an autosomal-dominant way over generations. To test the hypothesis that this Cx40 mutant affects the distribution and function of atrial gap junctions, we studied the Q49X mutant in gap-junction-deficient HeLa and N2A cells. The Q49X mutant, unlike wild-type Cx40, was typically localized in the cytoplasm and failed to form gap-junction plaques at cell-cell interfaces. When the Q49X mutant was co-expressed with Cx40 or Cx43, the mutant substantially reduced the gap-junction plaque formation of Cx40 and Cx43. Electrophysiological studies revealed no electrical coupling of cell pairs expressing the mutant alone and a significant decrease in the coupling conductance when the mutant was co-expressed with Cx40 or Cx43. Further colocalization experiments with the organelle residential proteins indicate that Q49X was retained in the endoplasmic reticulum. These findings provide evidence that the Q49X mutant is capable of impairing gap-junction distribution and function of key atrial connexins, which might play a role in the predisposition to and onset of AF.

Published

2014

4. ConvStencil: Transform Stencil Computation to Matrix Multiplication on Tensor Cores.

Author

Yuetao Chen, Kun Li, Yuhao Wang, Donglin Bai, Lei Wang, Lingxiao Ma, Liang Yuan, Yunquan Zhang, Ting Cao, and Mao Yang 0004

Published

2024

5. The First Extracellular Domain Plays an Important Role in Unitary Channel Conductance of Cx50 Gap Junction Channels.

Author

Xiaoling Tong, Hiroshi Aoyama, Swathy Sudhakar, Honghong Chen, Brian H Shilton, and Donglin Bai

Subjects

Medicine, Science

Abstract

Gap junction (GJ) channels provide direct passage for ions and small molecules to be exchanged between neighbouring cells and are crucial for many physiological processes. GJ channels can be gated by transjunctional voltage (known as Vj-gating) and display a wide range of unitary channel conductance (γj), yet the domains responsible for Vj-gating and γj are not fully clear. The first extracellular domain (E1) of several connexins has been shown to line part of their GJ channel pore and play important roles in Vj-gating properties and/or ion permeation selectivity. To test roles of the E1 of Cx50 GJ channels, we generated a chimera, Cx50Cx36E1, where the E1 domain of Cx50 was replaced with that of Cx36, a connexin showing quite distinct Vj-gating and γj from those of Cx50. Detailed characterizations of the chimera and three point mutants in E1 revealed that, although the E1 domain is important in determining γj, the E1 domain of Cx36 is able to effectively function within the context of the Cx50 channel with minor changes in Vj-gating properties, indicating that sequence differences between the E1 domains in Cx36 and Cx50 cannot account for their drastic differences in Vj-gating and γj. Our homology models of the chimera and the E1 mutants revealed that electrostatic properties of the pore-lining residues and their contribution to the electric field in the pore are important factors for the rate of ion permeation of Cx50 and possibly other GJ channels.

Published

2015

6. Atrial fibrillation-linked germline GJA5/connexin40 mutants showed an increased hemichannel function.

Author

Yiguo Sun, Matthew D Hills, Willy G Ye, Xiaoling Tong, and Donglin Bai

Subjects

Medicine, Science

Abstract

Mutations in GJA5 encoding the gap junction protein connexin40 (Cx40) have been linked to lone atrial fibrillation. Some of these mutants result in impaired gap junction function due to either abnormal connexin localization or impaired gap junction channels, which may play a role in promoting atrial fibrillation. However, the effects of the atrial fibrillation-linked Cx40 mutants on hemichannel function have not been studied. Here we investigated two atrial fibrillation-linked germline Cx40 mutants, V85I and L221I. These two mutants formed putative gap junction plaques at cell-cell interfaces, with similar gap junction coupling conductance as that of wild-type Cx40. Connexin deficient HeLa cells expressing either one of these two mutants displayed prominent propidium iodide-uptake distinct from cells expressing wild-type Cx40 or other atrial fibrillation-linked Cx40 mutants, I75F, L229M, and Q49X. Propidium iodide-uptake was sensitive to [Ca2+]o and the hemichannel blockers, carbenoxolone, flufenamic acid and mefloquine, but was not affected by the pannexin 1 channel blocking agent, probenecid, indicating that uptake is most likely mediated via connexin hemichannels. A gain-of-hemichannel function in these two atrial fibrillation-linked Cx40 mutants may provide a novel mechanism underlying the etiology of atrial fibrillation.

Published

2014

7. Making Every Frame Matter: Continuous Video Understanding for Large Models via Adaptive State Modeling.

Author

Hao Wu, Donglin Bai, Shiqi Jiang, Qianxi Zhang, Yifan Yang, Ting Cao, and Fengyuan Xu

Published

2024

8. Online Video Streaming Super-Resolution with Adaptive Look-Up Table Fusion.

Author

Guanghao Yin, Xinyang Jiang, Shan Jiang, Zhenhua Han, Ningxin Zheng, Huan Yang 0005, Donglin Bai, Haisheng Tan, Shouqian Sun, Yuqing Yang 0001, Dongsheng Li 0002, and Lili Qiu

Published

2023

9. A Temperature Sensor System in the 4G-Based Internet of Things.

Author

Donglin Bai and Feng Jin

Published

2019

10. Combining Fisheye Camera with Odometer for Autonomous Parking.

Author

Donglin Bai and Jianbo Su

Published

2019

11. Genetically engineered human embryonic kidney cells as a novel vehicle for dual patch clamp study of human gap junction channels.

Author

Honghong Chen, Yi X. Li, Wong, Robert S., Esseltine, Jessica L., and Donglin Bai

Subjects

ERGONOMICS, HUMAN experimentation, ARRHYTHMIA, HUMAN genes, CONNEXINS, SODIUM channels

Abstract

Mutations in more than half of human connexin genes encoding gap junction (GJ) subunits have been linked to inherited human diseases. Functional studies of human GJ channels are essential for revealing mechanistic insights into the etiology of disease-linked connexin mutants. However, the commonly used Xenopus oocytes, N2A, HeLa, and other model cells for recombinant expression of human connexins have different and significant limitations. Here we developed a human cell line (HEK293) with each of the endogenous connexins (Cx43 and Cx45) knocked out using the CRISPR-Cas9 system. Double knockout HEK293 cells showed no background GJ coupling, were easily transfected with several human connexin genes (such as those encoding Cx46, Cx50, Cx37, Cx45, Cx26, and Cx36) which successfully formed functional GJs and were readily accessible for dual patch clamp analysis. Single knockout Cx43 or Cx45 HEK cell lines could also be used to characterize human GJ channels formed by Cx45 or Cx43, respectively, with an expression level suitable for studying macroscopic and single channel GJ channel properties. A cardiac arrhythmia linked Cx45 mutant R184G failed to form functional GJs in DKO HEK293 cells with impaired localizations. These genetically engineered HEK293 cells are well suited for patch clamp study of human GJ channels. [ABSTRACT FROM AUTHOR]

Published

2024

12. Cx31.1 can selectively intermix with co-expressed connexins to facilitate its assembly into gap junctions.

Author

Leighton, Stephanie E., Wong, Robert S., Lucaciu, Sergiu A., Hauser, Alexandra, Johnston, Danielle, Stathopulos, Peter B., Donglin Bai, Penuela, Silvia, and Laird, Dale W.

Subjects

CONNEXINS, GTPASE-activating protein, FUNCTIONAL status, LYSOSOMES, KERATINOCYTES

Abstract

Connexins are channel-forming proteins that function to facilitate gap junctional intercellular communication. Here, we use dual cell voltage clamp and dye transfer studies to corroborate past findings showing that Cx31.1 (encoded by GJB5) is defective in gap junction channel formation, illustrating that Cx31.1 alone does not form functional gap junction channels in connexin-deficient mammalian cells. Rather Cx31.1 transiently localizes to the secretory pathway with a subpopulation reaching the cell surface, which is rarely seen in puncta reminiscent of gap junctions. Intracellular retained Cx31.1was subject to degradation as Cx31.1 accumulated in the presence of proteasomal inhibition, had a faster turnover when Cx43 was present and ultimately reached lysosomes. Although intracellularly retained Cx31.1 was found to interact with Cx43, this interaction did not rescue its delivery to the cell surface. Conversely, the co-expression of Cx31 dramatically rescued the assembly of Cx31.1 into gap junctions where gap junction-mediated dye transfer was enhanced. Collectively, our results indicate that the localization and functional status of Cx31.1 is altered through selective interplay with coexpressed connexins, perhaps suggesting Cx31.1 is a key regulator of intercellular signaling in keratinocytes. [ABSTRACT FROM AUTHOR]

Published

2024

13. Full-Cycle Energy Consumption Benchmark for Low-Carbon Computer Vision.

Author

Bo Li 0080, Xinyang Jiang, Donglin Bai, Yuge Zhang, Ningxin Zheng, Xuanyi Dong, Lu Liu 0019, Yuqing Yang 0001, and Dongsheng Li 0002

Published

2021

14. Inherited disease-linked arginine76 or equivalent residue mutants in Cx50 and Cx45 showed impaired homotypic and heterotypic gap junction function, but not Cx43

Author

Tianhe Li, Honghong Chen, Xiaole Li, Peter B. Stathopulos, and Donglin Bai

Subjects

Biophysics

Published

2023

15. Inherited disease-linked arginine76/75 mutants in Cx50 and Cx45 showed impaired homotypic and heterotypic gap junction function, but not Cx43.

Author

Tianhe Li, Honghong Chen, Xiaole Li, Stathopulos, Peter B., and Donglin Bai

Subjects

CELL communication, FLUORESCENT proteins, GENETIC disorders, CONNEXINS, DYSPLASIA, GENETIC mutation, ARRHYTHMIA

Abstract

Connexins form intercellular communication channels, known as gap junctions (GJs), in many tissues/organs. Mutations in connexin genes are found to be linked to various inherited diseases, but the mechanisms are not fully clear. The Arg76 (R76) in Cx50 is fully conserved across the entire connexin family and is a hotspot for five connexin-linked inherited diseases, including Cx50 and Cx46-linked congenital cataract, Cx43-linked oculodentodigital dysplasia, and Cx45-linked cardiac arrhythmias. To better understand the molecular and cellular mechanism of dysfunction caused by R76/75 mutations, we examined the functional status and properties of GJs containing R76 mutations in Cx50 (R76H/C), Cx43 (R76H/S/C), and Cx45 (R75H) with an emphasis on heterotypic GJs in connexin-deficient model cells. All tested mutants showed an impairment of homotypic GJ function reflected by a decreased coupling% and conductance, except for Cx43 R76H/S. These connexin mutants also showed impaired GJ function when paired with a docking-compatible connexin, such as Cx50/Cx46 or Cx45/Cx43, except for all mutants on Cx43 which formed functional heterotypic GJs with Cx45. Localization studies on fluorescent protein tagged connexin mutants revealed that Cx45 R75H and Cx43 R76C showed impaired localization. Our homology structure models indicated that mutations of R76/75 in these GJs led to a loss of intra- and/or inter-connexin non-covalent interactions (salt bridges) at the sidechain of this residue, which could contribute to the observed GJ impairments underlying diseases. It is interesting that unlike those diseaselinked variants in Cx50 and Cx45, Cx43 can tolerate some variations at R76. [ABSTRACT FROM AUTHOR]

Published

2023

16. The Hydrophobic Residues in Amino Terminal Domains of Cx46 and Cx50 Are Important for Their Gap Junction Channel Ion Permeation and Gating

Author

Roa’a Jaradat, Xiaole Li, Honghong Chen, Peter B. Stathopulos, and Donglin Bai

Subjects

gap junction structure, Cx46, Cx50, amino terminal domain, Vj-gating, single channel conductance, patch clamp, Organic Chemistry, Gap Junctions, General Medicine, Catalysis, Connexins, Ion Channels, Computer Science Applications, Inorganic Chemistry, Physical and Theoretical Chemistry, Molecular Biology, Hydrophobic and Hydrophilic Interactions, Ion Channel Gating, Spectroscopy

Abstract

Lens gap junctions (GJs) formed by Cx46 and Cx50 are important to keep lens transparency. Functional studies on Cx46 and Cx50 GJs showed that the Vj-gating, single channel conductance (γj), gating polarity, and/or channel open stability could be modified by the charged residues in the amino terminal (NT) domain. The role of hydrophobic residues in the NT on GJ properties is not clear. Crystal and cryo-EM GJ structures have been resolved, but the NT domain structure has either not been resolved or has showed very different orientations depending on the component connexins and possibly other experimental conditions, making it difficult to understand the structural basis of the NT in Vj-gating and γj. Here, we generated missense variants in Cx46 and Cx50 NT domains and studied their properties by recombinant expression and dual whole-cell patch clamp experiments on connexin-deficient N2A cells. The NT variants (Cx46 L10I, N13E, A14V, Q15N, and Cx50 I10L, E13N, V14A, N15Q) were all able to form functional GJs with similar coupling%, except Cx46 N13E, which showed a significantly reduced coupling%. The GJs of Cx46 N13E, A14V and Cx50 E13N, N15Q showed a reduced coupling conductance. Vj-gating of all the variant GJs were similar to the corresponding wild-type GJs except Cx46 L10I. The γj of Cx46 N13E, A14V, Cx50 E13N, and N15Q GJs was reduced to 51%, 82%, 87%, and 74%, respectively, as compared to their wild-type γjs. Structural models of Cx46 L10I and A14V predicted steric clashes between these residues and the TM2 residues, which might be partially responsible for our observed changes in GJ properties. To verify the importance of hydrophobic interactions, we generated a variant, Cx50 S89T, which also shows a steric clash and failed to form a functional GJ. Our experimental results and structure models indicate that hydrophobic interactions between the NT and TM2 domain are important for their Vj-gating, γj, and channel open stability in these and possibly other GJs.

Published

2022

17. Connexin45 (GJC1) loss-of-function mutation contributes to familial atrial fibrillation and conduction disease

Author

Willy G. Ye, Yan-Jie Li, Yi-Qing Yang, Honghong Chen, Ying-Jia Xu, Xing-Biao Qiu, Ruo-Gu Li, and Donglin Bai

Subjects

Adult, Male, Heterozygote, medicine.medical_specialty, Adolescent, Sinus bradycardia, DNA Mutational Analysis, 030204 cardiovascular system & hematology, Connexins, Electrocardiography, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Cardiac Conduction System Disease, Heart Conduction System, Genetic linkage, Physiology (medical), Internal medicine, Atrial Fibrillation, Humans, Medicine, 030212 general & internal medicine, Child, Aged, business.industry, Cardiac arrhythmia, Atrial fibrillation, DNA, Middle Aged, medicine.disease, Pedigree, 3. Good health, Heart failure, Mutation, Mutation (genetic algorithm), Cardiology, Female, medicine.symptom, Cardiology and Cardiovascular Medicine, business, Atrioventricular block, Familial atrial fibrillation

Abstract

Background Atrial fibrillation (AF) represents the most common clinical cardiac arrhythmia and substantially increases the risk of cerebral stroke, heart failure, and death. Although causative genes for AF have been identified, the genetic determinants for AF remain largely unclear. Objective This study aimed to investigate the molecular basis of AF in a Chinese kindred. Methods A 4-generation family with autosomal-dominant AF and other arrhythmias (atrioventricular block, sinus bradycardia, and premature ventricular contractions) was recruited. Genome-wide scan with microsatellite markers and linkage analysis as well as whole-exome sequencing analysis were performed. Electrophysiological characteristics and subcellular localization of the AF-linked mutant were analyzed using dual whole-cell patch clamps and confocal microscopy, respectively. Results A novel genetic locus for AF was mapped to chromosome 17q21.3, a 3.23-cM interval between markers D17S951 and D17S931, with a maximum 2-point logarithm of odds score of 4.2144 at marker D17S1868. Sequencing analysis revealed a heterozygous mutation in the mapping region, NM_005497.4:c.703A>T;p.(M235L), in the GJC1 gene encoding connexin45 (Cx45). The mutation cosegregated with AF in the family and was absent in 632 control individuals. The mutation decreased the coupling conductance in cell pairs (M235L/M235L, M235L/Cx45, M235L/Cx43, and M235L/Cx40), likely because of impaired subcellular localization. Conclusion This study defines a novel genetic locus for AF on chromosome 17q21.3 and reveals a loss-of-function mutation in GJC1 (Cx45) contributing to AF and other cardiac arrhythmias.

Published

2021

18. The amino terminal domain plays an important role in transjunctional voltage-dependent gating kinetics of Cx45 gap junctions

Author

Robert C. Chen, Hiroshi Aoyama, Artur Santos-Miranda, Donglin Bai, Mamiko Odoko-Ishimoto, and Honghong Chen

Subjects

Models, Molecular, 0301 basic medicine, Action potential, Amino Acid Motifs, Action Potentials, Connexin, Gating, 030204 cardiovascular system & hematology, Connexins, Cell Line, Green fluorescent protein, Mice, Structure-Activity Relationship, 03 medical and health sciences, 0302 clinical medicine, Genes, Reporter, Animals, Humans, Myocytes, Cardiac, Protein Interaction Domains and Motifs, Amino Acid Sequence, Molecular Biology, Chemistry, Sodium channel, Gap junction, Gap Junctions, Conductance, Coupling (electronics), Protein Transport, 030104 developmental biology, Biophysics, sense organs, Cardiology and Cardiovascular Medicine, Ion Channel Gating, Protein Binding

Abstract

Gap junction (GJ) channels formed by Cx45 exist in nodal cells in the heart where the action potential propagation is the slowest. The cellular mechanisms of slow propagation speed (or longer junctional delay) in nodal cells could be a combination of several factors, including lack of voltage-gated sodium channels, smaller cell size, and a lower GJ coupling conductance of Cx45. Compared to other cardiac GJs, Cx45 GJs possess not only the lowest unitary channel conductance, but also the highest extent and the fastest kinetics of the transjunctional voltage-dependent gating (Vj-gating) together with a slow recovery. These unique gating properties could make Cx45 GJs more vulnerable for dynamic uncoupling to a much lower coupling level, especially when junctional delay is lengthened and/or the heart rate is elevated. The molecular mechanisms determining the Vj-gating properties of Cx45 (a connexin belongs to γ group) GJs have not been studied. Previous functional studies on the amino terminal (NT) domain chimeras or point variants of other connexins belong to α or β group showed that their NT domains played an important role in determining their Vj-gating properties. The crystal and cryo-electron microscope structures of homologous connexin GJs showed that the NT domain lines the GJ pore, a position that could serve a role in Vj-sensing and gating. We hypothesize that the residues in the NT domain of Cx45 are important for its Vj-gating properties. Protein sequence alignment of human Cx45 NT domain with the connexins in the α and β groups revealed that the second and the eighth residues in Cx45 are different from most of these connexins. We generated a total of 14 variants on these two residues and studied their ability to form functional GJs and their Vj-gating properties in model cells. Our results revealed an important role of these two residues on fast Vj-gating kinetics and formation of morphological and functional GJ channels. In contrast, no Vj-gating change was observed on a GFP tagged Cx45 at its carboxyl terminus.

Published

2020

19. Interrogation of Carboxy-Terminus Localized GJA1 Variants Associated with Erythrokeratodermia Variabilis et Progressiva

Author

Sergiu A. Lucaciu, Qing Shao, Rhett Figliuzzi, Kevin Barr, Donglin Bai, and Dale W. Laird

Subjects

QH301-705.5, keratinocyte, gap junctional intercellular communication (GJIC), Endoplasmic Reticulum, Catalysis, Article, connexin43 (Cx43), epidermis, erythrokeratodermia variabilis et progressiva (EKVP), internalization, degradation, variants, Inorganic Chemistry, Degradation, Animals, Humans, Erythrokeratodermia Variabilis, Physical and Theoretical Chemistry, Biology (General), Coloring Agents, Molecular Biology, QD1-999, Spectroscopy, Connexin43 (Cx43), Gap junctional intercellular communication (GJIC), Organic Chemistry, Variants, Gap Junctions, General Medicine, Computer Science Applications, Rats, Chemistry, Erythrokeratodermia variabilis et progressiva (EKVP), Connexin 43, Mutation, Proteolysis, Mutant Proteins, Epidermis, Keratinocyte, Internalization, HeLa Cells

Abstract

Although inherited GJA1 (encoding Cx43) gene mutations most often lead to oculodentodigital dysplasia and related disorders, four variants have been linked to erythrokeratodermia variabilis et progressiva (EKVP), a skin disorder characterized by erythematous and hyperkeratotic lesions. While two autosomal-dominant EKVP-linked GJA1 mutations have been shown to lead to augmented hemichannels, the consequence(s) of keratinocytes harboring a de novo P283L variant alone or in combination with a de novo T290N variant remain unknown. Interestingly, these variants reside within or adjacent to a carboxy terminus polypeptide motif that has been shown to be important in regulating the internalization and degradation of Cx43. Cx43-rich rat epidermal keratinocytes (REKs) or Cx43-ablated REKs engineered to express fluorescent protein-tagged P283L and/or T290N variants formed prototypical gap junctions at cell–cell interfaces similar to wildtype Cx43. Dye coupling and dye uptake studies further revealed that each variant or a combination of both variants formed functional gap junction channels, with no evidence of augmented hemichannel function or induction of cell death. Tracking the fate of EKVP-associated variants in the presence of the protein secretion blocker brefeldin A, or an inhibitor of protein synthesis cycloheximide, revealed that P283L or the combination of P283L and T290N variants either significantly extended Cx43 residency on the cell surface of keratinocytes or delayed its degradation. However, caution is needed in concluding that this modest change in the Cx43 life cycle is sufficient to cause EKVP, or whether an additional underlying mechanism or another unidentified gene mutation is contributing to the pathogenesis found in patients. This question will be resolved if further patients are identified where whole exome sequencing reveals a Cx43 P283L variant alone or, in combination with a T290N variant, co-segregates with EKVP across several family generations.

Published

2022

20. SDN Based Intelligent Honeynet Network Model Design and Verification

Author

Zhengduo Chen, Ruidong Li, Minjiao Zheng, and Donglin Bai

Subjects

Honeypot, Computer architecture, Computer science, Network model

Published

2021

21. Connexin 46 and connexin 50 gap junction channel properties are shaped by structural and dynamic features of their N-terminal domains

Author

Benny Yue, Bassam G. Haddad, Ze Zhang, Daniel M. Zuckerman, Steve L. Reichow, Mena Atalla, Hongchong Chen, Donglin Bai, and Umair Khan

Subjects

0301 basic medicine, Physiology, Chemistry, Cryoelectron Microscopy, Gap junction, Conductance, Connexin, Gap Junctions, Gating, Connexins, 03 medical and health sciences, Electrophysiology, Molecular dynamics, 030104 developmental biology, 0302 clinical medicine, Biophysics, 030217 neurology & neurosurgery, Ion channel, Function (biology)

Abstract

KEY POINTS Gap junctions formed by different connexins are expressed throughout the body and harbour unique channel properties that have not been fully defined mechanistically. Recent structural studies by cryo-electron microscopy have produced high-resolution models of the related but functionally distinct lens connexins (Cx50 and Cx46) captured in a stable open state, opening the door for structure-function comparison. Here, we conducted comparative molecular dynamics simulation and electrophysiology studies to dissect the isoform-specific differences in Cx46 and Cx50 intercellular channel function. We show that key determinants Cx46 and Cx50 gap junction channel open stability and unitary conductance are shaped by structural and dynamic features of their N-terminal domains, in particular the residue at the 9th position and differences in hydrophobic anchoring sites. The results of this study establish the open state Cx46/50 structural models as archetypes for structure-function studies targeted at elucidating the mechanism of gap junction channels and the molecular basis of disease-causing variants. ABSTRACT Connexins form intercellular communication channels, known as gap junctions (GJs), that facilitate diverse physiological roles, from long-range electrical and chemical coupling to coordinating development and nutrient exchange. GJs formed by different connexin isoforms harbour unique channel properties that have not been fully defined mechanistically. Recent structural studies on Cx46 and Cx50 defined a novel and stable open state and implicated the amino-terminal (NT) domain as a major contributor for isoform-specific functional differences between these closely related lens connexins. To better understand these differences, we constructed models corresponding to wildtype Cx50 and Cx46 GJs, NT domain swapped chimeras, and point variants at the 9th residue for comparative molecular dynamics (MD) simulation and electrophysiology studies. All constructs formed functional GJ channels, except the chimeric Cx46-50NT variant, which correlated with an introduced steric clash and increased dynamical behaviour (instability) of the NT domain observed by MD simulation. Single channel conductance correlated well with free-energy landscapes predicted by MD, but resulted in a surprisingly greater degree of effect. Additionally, we observed significant effects on transjunctional voltage-dependent gating (Vj gating) and/or open state dwell times induced by the designed NT domain variants. Together, these studies indicate intra- and inter-subunit interactions involving both hydrophobic and charged residues within the NT domains of Cx46 and Cx50 play important roles in defining GJ open state stability and single channel conductance, and establish the open state Cx46/50 structural models as archetypes for structure-function studies targeted at elucidating GJ channel mechanisms and the molecular basis of cataract-linked connexin variants.

Published

2021

22. Connexin 46 and connexin 50 gap junction channel open stability and unitary conductance are shaped by structural and dynamic features of their N-terminal domains

Author

Mena Atalla, Bassam G. Haddad, Umair Khan, Ze Zhang, Steve L. Reichow, Benny Yue, Honghong Chen, Daniel M. Zuckerman, and Donglin Bai

Subjects

Electrophysiology, Molecular dynamics, Chemistry, Wild type, Gap junction, Biophysics, Connexin, Conductance, Gating, Patch clamp

Abstract

The connexins form intercellular communication channels, known as gap junctions (GJs), that facilitate diverse physiological roles in vertebrate species, ranging from electrical coupling and long-range chemical signaling, to coordinating development and nutrient exchange. GJs formed by different connexins are expressed throughout the body and harbor unique channel properties that have not been fully defined mechanistically. Recent structural studies have implicated the amino-terminal (NT) domain as contributing to isoform-specific functional differences that exist between the lens connexins, Cx50 and Cx46. To better understand the structural and functional differences in the two closely related, yet functionally distinct GJs, we constructed models corresponding to CryoEM-based structures of the wildtype Cx50 and Cx46 GJs, NT domain swapped chimeras (Cx46-50NT and Cx50-46NT), and point variants at the 9th residue (Cx46-R9N and Cx50-N9R) for comparative MD simulation and electrophysiology studies. All of these constructs formed functional GJ channels, except Cx46-50NT, which correlated with increased dynamical behavior (instability) of the NT domain observed by MD simulation. Single channel conductance (γj) also correlated well with free-energy landscapes predicted by MD, where γj of Cx46-R9N was increased from Cx46 and the γjs of Cx50-46NT and Cx50-N9R was decreased from Cx50, but to a surprisingly greater degree. Additionally, we observed significant effects on transjunctional voltage-dependent gating (Vj-gating) and open-state dwell times induced by the designed NT domain variants. Together, these studies indicate that the NT domains of Cx46 and Cx50 play an important role in defining channel properties related to open-state stability and single channel conductance.

Published

2020

23. A Temperature Sensor System in the 4G-Based Internet of Things

Author

Feng Jin and Donglin Bai

Subjects

Sensor system, Database server, 0209 industrial biotechnology, business.industry, Computer science, Hardware_PERFORMANCEANDRELIABILITY, 02 engineering and technology, Set (abstract data type), Upload, 020901 industrial engineering & automation, Terminal (electronics), Mobile phone, ComputerSystemsOrganization_MISCELLANEOUS, 0202 electrical engineering, electronic engineering, information engineering, Wireless, 020201 artificial intelligence & image processing, Internet of Things, business, Computer network

Abstract

In order to manage real-time ambient temperature values at all times and places, this paper realizes a 4G-based temperature sensor system for the internet of things. Sensor platform gets the temperature values from wireless terminal nodes through the ZigBee coordinator, and upload it to the remote MySQL database server via 4G. In addition, an application is developed on mobile phone for users to obtain real-time temperature values, and a website for PC users is set up to realize the temperature values searching and displaying in real time.

Published

2020

24. Crucial motifs and residues in the extracellular loops influence the formation and specificity of connexin docking

Author

Hiroshi Aoyama, Benny Yue, and Donglin Bai

Subjects

0301 basic medicine, Sequence analysis, Amino Acid Motifs, Protein domain, Biophysics, Connexin, Sequence alignment, Computational biology, Biology, Bioinformatics, Biochemistry, Molecular Docking Simulation, Connexins, Connexon, 03 medical and health sciences, 0302 clinical medicine, Protein Domains, otorhinolaryngologic diseases, Animals, Humans, Gene, Cell Biology, Connexin 26, 030104 developmental biology, Docking (molecular), Mutation, sense organs, 030217 neurology & neurosurgery

Abstract

Most of the early studies on gap junction (GJ) channel function and docking compatibility were on rodent connexins, while recent research on GJ channels gradually shifted from rodent to human connexins largely due to the fact that mutations in many human connexin genes are found to associate with inherited human diseases. The studies on human connexins have revealed some key differences from those found in rodents, calling for a comprehensive characterization of human GJ channels. Functional studies revealed that docking and formation of functional GJ channels between two hemichannels are possible only between docking-compatible connexins. Two groups of docking-compatible rodent connexins have been identified. Compatibility is believed to be due to their amino acid residue differences at the extracellular loop domains (E1 and E2). Sequence alignment of the E1 and E2 domains of all connexins known to make GJs revealed that they are highly conserved and show high sequence identity with human Cx26, which is the only connexin with near atomic resolution GJ structure. We hypothesize that different connexins have a similar structure as that of Cx26 at the E1 and E2 domains and use the corresponding residues in their E1 and E2 domains for docking. Based on the Cx26 GJ structure and sequence analysis of well-studied connexins, we propose that the E1-E1 docking interactions are staggered with each E1 interacting with two E1s on the docked connexon. The putative E1 docking residues are conserved in both docking-compatible and -incompatible connexins, indicating that E1 does not likely serve a role in docking compatibility. However, in the case of E2-E2 docking interactions, the putative docking residues are only conserved within the docking-compatible connexins, suggesting the E2 is likely to serve the function of docking compatibility. Docking compatibility studies on human connexins have attracted a lot of attention due to the fact that putative docking residues are mutational hotspots for several connexin-linked human diseases. This article is part of a Special Issue entitled: Gap Junction Proteins edited by Jean Claude Herve.

Published

2018

25. Somatic mutations in the connexin 40 gene (GJA5) in atrial fibrillation

Author

Gollob, Michael H.; Jones, Douglas L.; Krahn, Andrew D.; Danis, Lynne; Xiang-Qun Gong, Qing Shao; Xiaoqin Liu; Veinot, John P.; Tang, Anthony S.L., Stewart, Alexandre F.R.; Tesson, Frederique; Klein, George J., Yee, Raymond; Skanes, Allan C.; Guiraudon, Gerard M., and Ebihara, Lisa; Donglin Bai

Subjects

Atrial fibrillation -- Genetic aspects

Abstract

A study was conducted to show that idiopathic atrial fibrillation has a generic basis and that tissue-specific mutations in GJA5, the gene encoding connexin 40, might predispose the atria to fibrillation. The findings from the data suggest that common diseases traditionally considered to be idiopathic might have a genetic basis, with mutations confined to the diseased tissue.

Published

2006

26. Differential Domain Distribution of gnomAD- and Disease-Linked Connexin Missense Variants

Author

Ryan Chan, Raphael J An, Mohammad T Khazaneh, Robert C. Chen, Tianhe Li, Mena Atalla, Jiayi Wang, Donglin Bai, and Peter B. Stathopulos

Subjects

0301 basic medicine, evolutionary co-variation analysis, Sequence Homology, Connexin, Genome, Connexins, 0302 clinical medicine, Databases, Genetic, Coding region, Missense mutation, atrial fibrillation, Biology (General), Spectroscopy, Genetics, education.field_of_study, gap junction structure, congenital cataracts, Gap Junctions, Cx40, General Medicine, Cx43, Computer Science Applications, Chemistry, QH301-705.5, Population, Mutation, Missense, Cx50, Biology, Article, Catalysis, DNA sequencing, oculodentodigital dysplasia, Inorganic Chemistry, 03 medical and health sciences, Cx46, Protein Domains, Humans, connexin variants, Amino Acid Sequence, Physical and Theoretical Chemistry, education, QD1-999, Molecular Biology, Gene, Organic Chemistry, Genetic Diseases, Inborn, Genetics, Population, 030104 developmental biology, Human genome, 030217 neurology & neurosurgery

Abstract

Twenty-one human genes encode connexins, a family of homologous proteins making gap junction (GJ) channels, which mediate direct intercellular communication to synchronize tissue/organ activities. Genetic variants in more than half of the connexin genes are associated with dozens of different Mendelian inherited diseases. With rapid advances in DNA sequencing technology, more variants are being identified not only in families and individuals with diseases but also in people in the general population without any apparent linkage to Mendelian inherited diseases. Nevertheless, it remains challenging to classify the pathogenicity of a newly identified connexin variant. Here, we analyzed the disease- and Genome Aggregation Database (gnomAD, as a proxy of the general population)-linked variants in the coding region of the four disease-linked α connexin genes. We found that the most abundant and position-sensitive missense variants showed distinct domain distribution preference between disease- and gnomAD-linked variants. Plotting missense variants on topological and structural models revealed that disease-linked missense variants are highly enriched on the structurally stable/resolved domains, especially the pore-lining domains, while the gnomAD-linked missense variants are highly enriched in the structurally unstable/unresolved domains, especially the carboxyl terminus. In addition, disease-linked variants tend to be on highly conserved residues and those positions show evolutionary co-variation, while the gnomAD-linked missense variants are likely on less conserved residue positions and on positions without co-variation. Collectively, the revealed distribution patterns of disease- and gnomAD-linked missense variants further our understanding of the GJ structure–biological function relationship, which is valuable for classifying the pathogenicity of newly identified connexin variants.

Published

2021

27. Junctional delay, frequency, and direction-dependent uncoupling of human heterotypic Cx45/Cx43 gap junction channels

Author

Honghong Chen, Willy G. Ye, John A. Cameron, Hiroshi Aoyama, Nicholas K. Kim, Donglin Bai, and Benny Yue

Subjects

Models, Molecular, 0301 basic medicine, Action potential, Dependent manner, Action Potentials, Down-Regulation, Biology, Connexins, 03 medical and health sciences, Protein Domains, Humans, Amino Acid Sequence, Atrial myocytes, Molecular Biology, Recombinant expression, Gap junction, Gap Junctions, Anatomy, Cell biology, Kinetics, Protein Transport, 030104 developmental biology, Structural Homology, Protein, Connexin 43, cardiovascular system, Mutant Proteins, Functional status, sense organs, Cardiology and Cardiovascular Medicine, Low resistance, NODAL, Ion Channel Gating, Sequence Alignment, HeLa Cells

Abstract

Gap junction (GJ) channels form low resistance passages between cardiomyocytes and play a role in the rapid propagation of action potentials in the heart. A GJ channel is formed by two properly docked hemichannels and each hemichannel is a hexamer of connexins. Connexin40 (Cx40) and Cx43 are the dominant connexins in atrial myocytes, while Cx45 is mostly expressed in the sinoatrial (SA) and atrioventricular (AV) nodes which directly connect nodal cells with atrial myocytes, possibly via heterotypic Cx40/Cx45 and/or Cx43/Cx45 GJs. However, the functional status and channel properties of human heterotypic Cx40/Cx45 or Cx43/Cx45 GJs have not been studied. Here we investigated human Cx40/Cx45 and Cx43/Cx45 heterotypic GJs by recombinant expression in GJ deficient cells. Unlike the finding on rodent connexins, cell pairs expressing human Cx40 in one and Cx45 in the other failed to form morphological and functional GJs. Modifications in human Cx40 with designed variants (D55N or P193Q, but not P193K) are sufficient to establish morphological and functional heterotypic GJs with Cx45. In contrast, heterotypic human Cx43/Cx45 GJs are functional similar to that described for rodent Cx43/Cx45 GJs. Detailed kinetic characterizations of human heterotypic Cx43/Cx45 GJs revealed a rapid asymmetric Vj-gating and a much slower recovery, which could reduce the GJ conductance in a junctional delay, action potential frequency, and direction dependent manner. Dynamic uncoupling in Cx45-containing GJs might contribute to a slower action potential propagation in the AV node.

Published

2017

28. A Data Transmission Model in Multimode Heterogeneous Wireless Networks

Author

Donglin Bai, Feng Jin, Xianlie Li, Yang Du, and Yu Song

Subjects

Raspberry pi, Multi-mode optical fiber, Data acquisition, Wireless mesh network, Wireless network, Computer science, business.industry, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Heterogeneous wireless network, business, Information data, Data transmission, Computer network

Abstract

In order to meet the needs of wireless network quick access in emergency situations and provide capability of data transmission, this paper presents a design and implementation of a data transmission model in multimode heterogeneous wireless network. The network involving cellular mobile networks, wireless mesh networks, ZigBee and Wireless LAN technologies uses a portable Raspberry Pi and the Texas CC2530 to provide wide-area wireless network access for specific scenarios. Information data can be transmitted fluently among sensor nodes, coordinators, laptops and all other devices involved in the networks. The test demonstrates that the implemented model is applicable to provide services such as data acquisition, real-time video transmission and so on in multimode heterogeneous wireless networks scenarios.

Published

2019

29. ClinGen Expert Clinical Validity Curation of 164 Hearing Loss Gene-Disease Pairs

Author

Marina T. DiStefano, Sarah E. Hemphill, Andrea M. Oza, Rebecca K. Siegert, Andrew R. Grant, Madeline Y. Hughes, Brandon J. Cushman, Hela Azaiez, Kevin T. Booth, Alex Chapin, Hatice Duzkale, Tatsuo Matsunaga, Jun Shen, Wenying Zhang, Margaret Kenna, Lisa A. Schimmenti, Mustafa Tekin, Heidi L. Rehm, Ahmad N. Abou Tayoun, Sami S. Amr, Sonia Abdelhak, John Alexander, Karen Avraham, Neha Bhatia, Donglin Bai, Nicole Boczek, Zippora Brownstein, Rachel Burt, Yasmin Bylstra, Ignacio del Castillo, Byung Yoon Choi, Lilian Downie, Thomas Friedman, Anne Giersch, Jasmine Goh, John Greinwald, Andrew J. Griffith, Amy Hernandez, Jeffrey Holt, Makoto Hosoya, Lim Jiin Ying, Kanika Jain, Un-Kyung Kim, Hannie Kremer, Ian Krantz, Suzanne Leal, Morag Lewis, Xue Zhong Liu, Wendy Low, Yu Lu, Minjie Luo, Saber Masmoudi, Tan Yuen Ming, Miguel Angel Moreno-Pelayo, Matías Morín, Cynthia Morton, Jaclyn Murray, Hideki Mutai, Kiyomitsu Nara, Arti Pandya, Sylvia Kam Pei-Rong, Richard J.H. Smith, Saumya Shekhar Jamuar, Funda Elif Suer, Shin-Ichi Usami, Guy Van Camp, Kazuki Yamazawa, Hui-Jun Yuan, Elizabeth Black-Zeigelbein, Keijan Zhang, and ClinGen Hearing Loss Clinical Domain Working Group

Subjects

ClinGen, Hearing loss, Medical laboratory, Computational biology, Disease, Deafness, gene curation, Genome, Sensory disorders Donders Center for Medical Neuroscience [Radboudumc 12], Article, genetic diagnosis, 03 medical and health sciences, 0302 clinical medicine, Databases, Genetic, Humans, Medicine, Genetic Testing, Hearing Loss, Biology, Gene, Genetics (clinical), Data Curation, 030304 developmental biology, Genetic testing, 0303 health sciences, medicine.diagnostic_test, Genome, Human, business.industry, Genetic Variation, Reproducibility of Results, Genomics, Medical decision making, Human genetics, Mutation, Clinical validity, Human medicine, medicine.symptom, business, 030217 neurology & neurosurgery

Abstract

PurposeProper interpretation of genomic variants is critical to successful medical decision making based on genetic testing results. A fundamental prerequisite to accurate variant interpretation is the clear understanding of the clinical validity of gene-disease relationships. The Clinical Genome Resource (ClinGen) has developed a semi-quantitative framework to assign clinical validity to gene-disease relationships.MethodsThe ClinGen Hearing Loss Gene Curation Expert Panel (HL GCEP) uses this framework to perform evidence-based curations of genes present on testing panels from 17 clinical laboratories in the Genetic Testing Registry. The HL GCEP curated and reviewed 142 genes and 164 gene-disease pairs, including 105 nonsyndromic and 59 syndromic forms of hearing loss.ResultsThe final outcome included 82 Definitive (50%), 12 Strong (7%), 25 Moderate (15%), 32 Limited (20%), 10 Disputed (6%), and 3 Refuted (2%) classifications. The summary of each curation is date stamped with the HL GCEP approval, is live, and will be kept up-to-date on the ClinGen website (https://search.clinicalgenome.org/kb/gene-validity).ConclusionThis gene curation approach serves to optimize the clinical sensitivity of genetic testing while reducing the rate of uncertain or ambiguous test results caused by the interrogation of genes with insufficient evidence of a disease link.

Published

2019

30. Structural analysis of key gap junction domains—Lessons from genome data and disease-linked mutants

Author

Donglin Bai

Subjects

0301 basic medicine, Mutant, Connexin, Biology, Random hexamer, Genome, Connexins, Homology (biology), 03 medical and health sciences, 0302 clinical medicine, Protein Domains, otorhinolaryngologic diseases, Animals, Humans, Disease, Amino Acid Sequence, Gene, Genetics, Gap junction, Gap Junctions, Cell Biology, Sequence logo, 030104 developmental biology, Mutation, sense organs, 030217 neurology & neurosurgery, Developmental Biology

Abstract

A gap junction (GJ) channel is formed by docking of two GJ hemichannels and each of these hemichannels is a hexamer of connexins. All connexin genes have been identified in human, mouse, and rat genomes and their homologous genes in many other vertebrates are available in public databases. The protein sequences of these connexins align well with high sequence identity in the same connexin across different species. Domains in closely related connexins and several residues in all known connexins are also well-conserved. These conserved residues form signatures (also known as sequence logos) in these domains and are likely to play important biological functions. In this review, the sequence logos of individual connexins, groups of connexins with common ancestors, and all connexins are analyzed to visualize natural evolutionary variations and the hot spots for human disease-linked mutations. Several gap junction domains are homologous, likely forming similar structures essential for their function. The availability of a high resolution Cx26 GJ structure and the subsequently-derived homology structure models for other connexin GJ channels elevated our understanding of sequence logos at the three-dimensional GJ structure level, thus facilitating the understanding of how disease-linked connexin mutants might impair GJ structure and function. This knowledge will enable the design of complementary variants to rescue disease-linked mutants.

Published

2016

31. Energy-efficient distributed lifetime optimizing scheme for wireless sensor networks

Author

Donglin Bai and Weijie Lü

Subjects

Engineering, Multidisciplinary, business.industry, Monte Carlo method, Real-time computing, 020206 networking & telecommunications, 0102 computer and information sciences, 02 engineering and technology, 01 natural sciences, Scheduling (computing), Key distribution in wireless sensor networks, 010201 computation theory & mathematics, Software deployment, 0202 electrical engineering, electronic engineering, information engineering, business, Wireless sensor network, Efficient energy use

Abstract

In this paper, a sensing model for the coverage analysis of wireless sensor networks is provided. Using this model and Monte Carlo method, the ratio of private range to sensing range required to obtain the desired coverage can be derived considering the scale of deployment area and the number of sensor nodes. Base on the coverage analysis, an energy-efficient distributed node scheduling scheme is proposed to prolong the network lifetime while maintaining the desired sensing coverage, which does not need the geographic or neighbor information of nodes. The proposed scheme can also handle uneven distribution, and it is robust against node failures. Theoretical and simulation results demonstrate its efficiency and usefulness.

Published

2016

32. Engineered Cx40 variants increased docking and function of heterotypic Cx40/Cx43 gap junction channels

Author

Donglin Bai, Willy G. Ye, Arjewan Jassim, Hiroshi Aoyama, and Honghong Chen

Subjects

0301 basic medicine, Action potential, Recombinant Fusion Proteins, Green Fluorescent Proteins, Molecular Sequence Data, Static Electricity, Gene Expression, Biology, Protein Engineering, Connexins, Protein Structure, Secondary, Mice, 03 medical and health sciences, Genes, Reporter, Cell Line, Tumor, Extracellular, Animals, Humans, Amino Acid Sequence, Atrial myocytes, Molecular Biology, Neurons, Sequence Homology, Amino Acid, Gap junction, Gap Junctions, Molecular biology, Protein Structure, Tertiary, Molecular Docking Simulation, 030104 developmental biology, Key factors, Docking (molecular), Connexin 43, Mutation, cardiovascular system, Biophysics, Atrial myocardium, sense organs, biological phenomena, cell phenomena, and immunity, Cardiology and Cardiovascular Medicine, Low resistance, Sequence Alignment, HeLa Cells

Abstract

Gap junction (GJ) channels provide low resistance passages for rapid action potential propagation in the heart. Both connexin40 (Cx40) and Cx43 are abundantly expressed in and frequently co-localized between atrial myocytes, possibly forming heterotypic GJ channels. However, conflicting results have been obtained on the functional status of heterotypic Cx40/Cx43 GJs. Here we provide experimental evidence that the docking and formation of heterotypic Cx40/Cx43 GJs can be substantially increased by designed Cx40 variants on the extracellular domains (E1 and E2). Specifically, Cx40 D55N and P193Q, substantially increased the probability to form GJ plaque-like structures at the cell-cell interfaces with Cx43 in model cells. More importantly the coupling conductance (Gj) of D55N/Cx43 and P193Q/Cx43 GJ channels are significantly increased from the Gj of Cx40/Cx43 in N2A cells. Our homology models indicate the electrostatic interactions and surface structures at the docking interface are key factors preventing Cx40 from docking to Cx43. Improving heterotypic Gj of these atrial connexins might be potentially useful in improving the coupling and synchronization of atrial myocardium.

Published

2016

33. Specific functional pathologies of Cx43 mutations associated with oculodentodigital dysplasia

Author

Donglin Bai, Mari Auranen, Qing Shao, Jessica L. Esseltine, John J. Kelly, Jacinda B. Sampson, Ethylin Wang Jabs, and Dale W. Laird

Subjects

0301 basic medicine, Cell signaling, Foot Deformities, Congenital, Cell Communication, Oculodentodigital dysplasia, Biology, medicine.disease_cause, Dermal fibroblast, Craniofacial Abnormalities, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Eye Abnormalities, Fibroblast, Molecular Biology, Gene, Cells, Cultured, Genetics, Mutation, integumentary system, Tooth Abnormalities, Gap Junctions, Cell Biology, Articles, Fibroblasts, medicine.disease, Phenotype, 3. Good health, 030104 developmental biology, medicine.anatomical_structure, Cell Biology of Disease, Connexin 43, cardiovascular system, Syndactyly, Myofibroblast, 030217 neurology & neurosurgery, Signal Transduction

Abstract

Dermal fibroblasts from patients harboring mutations in the gap junction connexin43 gene have distinctly different mechanistic causes for the clinical presentations of oculodentodigital dysplasia., Oculodentodigital dysplasia (ODDD) is a rare genetic disease that affects the development of multiple organs in the human body. More than 70 mutations in the gap junction connexin43 (Cx43) gene, GJA1, are associated with ODDD, most of which are inherited in an autosomal dominant manner. Many patients exhibit similar clinical presentations. However, there is high intrafamilial and interfamilial phenotypic variability. To better understand this variability, we established primary human dermal fibroblast cultures from several ODDD patients and unaffected controls. In the present study, we characterized three fibroblast lines expressing heterozygous p.L7V, p.G138R, and p.G143S Cx43 variants. All ODDD fibroblasts exhibited slower growth, reduced migration, and defective cell polarization, traits common to all ODDD fibroblasts studied so far. However, we found striking differences in overall expression levels, with p.L7V down-regulated at the mRNA and protein level. Although all of the Cx43 variants could traffic to the cell surface, there were stark differences in gap junction plaque formation, gap junctional intercellular communication, Cx43 phosphorylation, and hemichannel activity among Cx43 variants, as well as subtle differences in myofibroblast differentiation. Together these findings enabled us to discover mutation-specific pathologies that may help to predict future clinical outcomes.

Published

2016

34. Correction for Oliveira-dos-Santos et al., Regulation of T cell activation, anxiety, and male aggression by RGS2

Author

Bryan E. Snow, Carol A. Barnes, Frank P. Houston, Sanjeev Mariathasan, David P. Siderovski, Takehiko Sasaki, Ian Q. Whishaw, Goichi Matsumoto, Donglin Bai, Antonio J. Oliveira-dos-Santos, Pamela S. Ohashi, John C. Roder, Andrew Wakeham, and Josef M. Penninger

Subjects

medicine.medical_specialty, Multidisciplinary, medicine.anatomical_structure, Endocrinology, Aggression, Internal medicine, T cell, medicine, Anxiety, medicine.symptom, Psychology, Corrections, RGS2

Published

2020

35. Heterotypic docking compatibility of human connexin37 with other vascular connexins

Author

Honghong Chen, Donglin Bai, Nicholas K. Kim, Artur Santos-Miranda, and Hiroshi Aoyama

Subjects

0301 basic medicine, Gap junction, 030204 cardiovascular system & hematology, Biology, Connexins, Cell biology, Molecular Docking Simulation, 03 medical and health sciences, Mice, 030104 developmental biology, 0302 clinical medicine, Docking (molecular), Animals, Blood Vessels, Humans, Gap junction channel, Amino Acid Sequence, Cardiology and Cardiovascular Medicine, Molecular Biology, Ion Channel Gating, HeLa Cells

Abstract

Human vascular connexins (Cx37, Cx40, Cx43, and Cx45) can form various types of gap junction channels to synchronize vasodilation/constriction to control local circulation. Most of our knowledge on heterotypic gap junctions of these vascular connexins was from studies on rodent connexins. In human vasculature, the same four homolog connexins exist, but whether these human connexins can form heterotypic GJs as those of rodents have not been fully studied. Here we used in vitro expression system to study the coupling status and GJ channel properties of human heterotypic Cx37/Cx40, Cx37/Cx43, and Cx37/Cx45 GJs. Our results showed that Cx37/Cx43 and Cx37/Cx45 GJs, but not Cx37/Cx40 GJs, were functional and each with unique rectifying channel properties. The failure of docking between Cx37 and Cx40 could be rescued by designed Cx40 variants. Characterization of the heterotypic Cx37/Cx43 and Cx37/Cx45 GJs may help us in understanding the intercellular communication at the myoendothelial junction.

Published

2018

36. Effects of temperature on transjunctional voltage-dependent gating kinetics in Cx45 and Cx40 gap junction channels

Author

Donglin Bai, Mahmoud Noureldin, and Artur Santos-Miranda

Subjects

0301 basic medicine, Action potential, Kinetics, Gating, 030204 cardiovascular system & hematology, Voltage dependent gating, Connexins, 03 medical and health sciences, Mice, 0302 clinical medicine, Cell Line, Tumor, Animals, Humans, Molecular Biology, Chemistry, Gap junction, Temperature, Conductance, Gap Junctions, Coupling (electronics), 030104 developmental biology, Biophysics, sense organs, Cardiology and Cardiovascular Medicine, Ion Channel Gating, Intracellular

Abstract

Gap junctions (GJs) are intercellular channels directly linking neighbouring cells and are dodecamers of connexins. In the human heart, connexin40 (Cx40), Cx43, and Cx45 are expressed in different regions of the heart forming GJs ensuring rapid propagation of action potentials in the myocardium. Two of these connexins, Cx40 and Cx45, formed functional GJs with prominent transjunctional voltage-dependent gating (Vj-gating), which can be a mechanism to down regulate coupling conductance (Gj). It is not clear the effects of temperature on Vj-gating properties. We expressed Cx40 or Cx45 in N2A cells to study the Vj-gating extent, the kinetics of deactivation, and the recovery time course from deactivation at 22 °C, 28 °C, and 32 °C. Dynamic uncoupling between cell pairs were evaluated at different temperatures, junctional delays, and/or repeating frequencies. Cx40 or Cx45 GJs showed little changes in the extent of Vj-gating, but in both cases with a faster deactivation kinetics at high temperatures. The recovery from deactivation was faster at higher temperatures for Cx45 GJs, but not for Cx40 GJs. Cx45 GJs, but not Cx40 GJs, were dynamically uncoupled when sufficient junctional delays and/or repeating frequency in all tested temperatures. Gap junction specific dynamic uncoupling could play an important role in regulating action potential propagation speed in Cx45 enriched nodal cells in the heart.

Published

2018

37. Variants with increased negative electrostatic potential in the Cx50 gap junction pore increased unitary channel conductance and magnesium modulation

Author

Brian H. Shilton, Mary Grace Tejada, Donglin Bai, Swathy Sudhakar, Hiroshi Aoyama, and Nicholas K. Kim

Subjects

0301 basic medicine, Static Electricity, Mutation, Missense, chemistry.chemical_element, Sequence alignment, Gating, Biochemistry, Connexins, Ion Channels, 03 medical and health sciences, Mice, Cell Line, Tumor, Extracellular, Animals, Magnesium, Patch clamp, Amino Acid Sequence, Molecular Biology, Binding Sites, Sequence Homology, Amino Acid, Gap junction, Conductance, Gap Junctions, Cell Biology, 030104 developmental biology, chemistry, Biophysics, sense organs, Ion Channel Gating, Intracellular

Abstract

Gap junction (GJ) channels are oligomers of connexins forming channels linking neighboring cells. GJs formed by different connexins show distinct unitary channel conductance (γj), transjunctional voltage-dependent gating (Vj-gating) properties, and modulation by intracellular magnesium ([Mg2+]i). The underlying molecular determinants are not fully clear. Previous experimental evidence indicates that residues in the amino terminal (NT) and initial segment of the first extracellular (E1) domain influence the γj, Vj-gating, and/or [Mg2+]i modulation in several GJs. Increasing negatively charged residues in Cx50 (connexin50) E1 (G46D or G46E) increased γj, while increasing positively charged residue (G46K) reduced the γj. Sequence alignment of Cx50 and Cx37 in the NT and E1 domains revealed that in Cx50 G8 and V53, positions are negatively charged residues in Cx37 (E8 and E53, respectively). To evaluate these residues together, we generated a triple variant in Cx50, G8E, G46E, and V53E simultaneously to study its γj, Vj-gating properties, and modulation by [Mg2+]i. Our data indicate that the triple variant and individual variants G8E, G46E, and V53E significantly increased Cx50 GJ γj without a significant change in the Vj gating. In addition, elevated [Mg2+]i reduced γj in Cx50 and all the variant GJs. These results and our homology structural models suggest that these NT/E1 residues are likely to be pore-lining and the variants increased the negative electrostatic potentials along the GJ pore to facilitate the γj of this cation-preferring GJ channel. Our results indicate that electrostatic properties of the Cx50 GJ pore are important for the γj and the [Mg2+]i modulation.

Published

2018

38. Functional Characterization of Novel Atrial Fibrillation-Linked GJA5 (Cx40) Mutants

Author

Donglin Bai, Mahmoud Noureldin, and Honghong Chen

Subjects

0301 basic medicine, Patch-Clamp Techniques, Mutant, Gating, Transfection, medicine.disease_cause, patch clamp, Article, Connexins, Statistics, Nonparametric, Catalysis, Inorganic Chemistry, lcsh:Chemistry, Mice, 03 medical and health sciences, Cell Line, Tumor, medicine, Animals, Humans, atrial fibrillation, gap junction channel, connexin40, Vj gating, Patch clamp, Physical and Theoretical Chemistry, Molecular Biology, lcsh:QH301-705.5, Spectroscopy, Cellular localization, Mutation, Chemistry, Organic Chemistry, Gap junction, Wild type, Gap Junctions, General Medicine, Computer Science Applications, Cell biology, Kinetics, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, HeLa Cells

Abstract

Atrial fibrillation (AF) is the most common form of cardiac arrhythmia. Recently, four novel heterozygous Cx40 mutations—K107R, L223M, Q236H, and I257L—were identified in 4 of 310 unrelated AF patients and a followup genetic analysis of the mutant carriers’ families showed that the mutants were present in all the affected members. To study possible alterations associated with these Cx40 mutants, including their cellular localization and gap junction (GJ) function, we expressed GFP-tagged and untagged mutants in connexin-deficient model cells. All four Cx40 mutants showed clustered localization at cell–cell junctions similar to that observed of wildtype Cx40. However, cell pairs expressing Cx40 Q236H, but not the other individual mutants, displayed a significantly lower GJ coupling conductance (Gj) than wildtype Cx40. Similarly, co-expression of Cx40 Q236H with Cx43 resulted in a significantly lower Gj. Transjunctional voltage-dependent gating (Vj gating) properties were also altered in the GJs formed by Q236H. Reduced GJ function and altered Vj gating may play a role in promoting the Q236H carriers to AF.

Published

2018

39. Atrial fibrillation-linkedGJA5/connexin40 mutants impaired gap junctions via different mechanisms

Author

Donglin Bai

Subjects

Somatic cell, Autosomal dominant inheritance, Mutant, Biophysics, Connexin, Biology, Biochemistry, Connexins, Germline, Pathogenesis, Gap junction channel, Structural Biology, Atrial Fibrillation, Genetics, medicine, Connexin43, Humans, Connexin40, Molecular Biology, Gap junction, Gap Junctions, Atrial fibrillation, Cell Biology, medicine.disease, Protein Transport, Mutation, Function (biology)

Abstract

The gap junctions (GJs) formed by Cx40 and Cx43 provide a low resistance passage allowing for rapid propagation of action potentials. Sporadic somatic mutations in GJA5 (encoding Cx40) have been identified in lone atrial fibrillation (AF) patients. More recently germline autosomal dominantly inherited mutations in GJA5 have been found in early onset lone AF patients in several families over generations. Characterizations of these AF-linked Cx40 mutants in model cells and in patient tissues revealed that some of the mutants reduced GJ channel function due to an impaired trafficking or channel formation. While others showed a gain-of-function in hemichannels. These functional alterations in GJs or hemichannel may play an important role in the pathogenesis of AF in the mutant carriers.

Published

2014

40. Correction: ClinGen expert clinical validity curation of 164 hearing loss gene–disease pairs

Author

Marina T. DiStefano, Sarah E. Hemphill, Andrea M. Oza, Rebecca K. Siegert, Andrew R. Grant, Madeline Y. Hughes, Brandon J. Cushman, Hela Azaiez, Kevin T. Booth, Alex Chapin, Hatice Duzkale, Tatsuo Matsunaga, Jun Shen, Wenying Zhang, Margaret Kenna, Lisa A. Schimmenti, Mustafa Tekin, Heidi L. Rehm, Ahmad N. Abou Tayoun, Sami S. Amr, Sonia Abdelhak, John Alexander, Karen Avraham, Neha Bhatia, Donglin Bai, Nicole Boczek, Zippora Brownstein, Rachel Burt, Yasmin Bylstra, Ignacio del Castillo, Byung Yoon Choi, Lilian Downie, Thomas Friedman, Anne Giersch, Jasmine Goh, John Greinwald, Andrew J. Griffith, Amy Hernandez, Jeffrey Holt, Makoto Hosoya, Lim Jiin Ying, Kanika Jain, Un-Kyung Kim, Hannie Kremer, Ian Krantz, Suzanne Leal, Morag Lewis, Xue Zhong Liu, Wendy Low, Yu Lu, Minjie Luo, Saber Masmoudi, Tan Yuen Ming, Miguel Angel Moreno-Pelayo, Matías Morín, Cynthia Morton, Jaclyn Murray, Hideki Mutai, Kiyomitsu Nara, Arti Pandya, Sylvia Kam Pei-Rong, Richard J.H. Smith, Saumya Shekhar Jamuar, Funda Elif Suer, Shin-Ichi Usami, Guy Van Camp, Kazuki Yamazawa, Hui-Jun Yuan, Elizabeth Black-Zeigelbein, and Keijan Zhang

Subjects

medicine.medical_specialty, Text mining, business.industry, Hearing loss, Published Erratum, Clinical validity, MEDLINE, medicine, Disease, Audiology, medicine.symptom, business, Genetics (clinical)

Published

2019

41. Heterotypic Docking Compatibility of Human Cx37 with Other Vascular Connexins

Author

Donglin Bai, Honghong Chen, Hiroshi Aoyama, Artur Santos-Miranda, and Nicholas K. Kim

Subjects

Docking (molecular), Chemistry, Biophysics, Computational biology

Published

2019

42. Gap Junction Channels and Hemichannels

Author

Donglin Bai, Juan C. Sáez, Donglin Bai, and Juan C. Sáez

Subjects

Gap Junctions, Connexins--genetics, Synaptic Transmission--physiology

Abstract

Gap junction channels are a group of intercellular channels expressed in tissues and organs to synchronize many physiological processes. A gap junction channel is formed by the docking of two hemichannels, and each hemichannel is a hexamer of connexins. The field of gap junction channel and hemichannel research has recently exploded and became one of the most active areas of cell biology. Numerous novel approaches and techniques have been developed, but there is no single book dedicated to the unique techniques and protocols employed for the research on these large pore channels. This book fills the gap and focuses on protocols, approaches and reviews of gap junction channels and connexin hemichannels. It will be a useful reference for graduate students, postdoctoral fellows and researchers. Anyone with an interest in gap junction channels and hemichannels will need this summary of state-of-the-art techniques and protocols.

Published

2016

43. Patch Clamp Analysis of Gap Junction Channel Properties

Author

Donglin Bai and John A. Cameron

Subjects

Materials science, business.industry, Optoelectronics, Gap junction channel, Patch clamp, business

Published

2016

44. The severity of mammary gland developmental defects is linked to the overall functional status of Cx43 as revealed by genetically modified mice

Author

Donglin Bai, Michael K. G. Stewart, Glenn I. Fishman, Kevin J. Barr, Dale W. Laird, and Xiang-Qun Gong

Subjects

GJIC, gap junctional intercellular communication, Male, mammary gland, WAP, whey acidic protein, Mammary gland, Mutant, Connexin, Oculodentodigital dysplasia, Oxytocin, Severity of Illness Index, Biochemistry, DMEM, Dulbecco’s modified Eagle’s medium, connexin 43, Craniofacial Abnormalities, Mice, 0302 clinical medicine, Pregnancy, Lactation, Eye Abnormalities, Cells, Cultured, GFP, green fluorescent protein, Mice, Inbred C3H, 0303 health sciences, gap junctional intercellular communication, Gap junction, Gap Junctions, medicine.anatomical_structure, 030220 oncology & carcinogenesis, TEB, terminal end bud, Female, Research Article, medicine.drug, medicine.medical_specialty, Foot Deformities, Congenital, PCNA, proliferating cell nuclear antigen, Blotting, Western, Green Fluorescent Proteins, Mice, Transgenic, Biology, oculodentodigital dysplasia, 03 medical and health sciences, Mammary Glands, Animal, Cell Line, Tumor, Internal medicine, medicine, Animals, Humans, Point Mutation, Cx, connexin, development, milk ejection, Molecular Biology, 030304 developmental biology, Tooth Abnormalities, Gap junction channel activity, Epithelial Cells, Cell Biology, medicine.disease, WT, wild-type, Mice, Inbred C57BL, Disease Models, Animal, Endocrinology, Microscopy, Fluorescence, Syndactyly, ODDD, oculodentodigital dysplasia

Abstract

Genetically modified mice mimicking ODDD (oculodentodigital dysplasia), a disease characterized by reduced Cx43 (connexin 43)-mediated gap junctional intercellular communication, represent an in vivo model to assess the role of Cx43 in mammary gland development and function. We previously reported that severely compromised Cx43 function delayed mammary gland development and impaired milk ejection in mice that harboured a G60S Cx43 mutant, yet there are no reports of lactation defects in ODDD patients. To address this further, we obtained a second mouse model of ODDD expressing an I130T Cx43 mutant to assess whether a mutant with partial gap junction channel activity would be sufficient to retain mammary gland development and function. The results of the present study show that virgin Cx43I130T/+ mice exhibited a temporary delay in ductal elongation at 4 weeks. In addition, Cx43I130T/+ mice develop smaller mammary glands at parturition due to reduced cell proliferation despite similar overall gland architecture. Distinct from Cx43G60S/+ mice, Cx43I130T/+ mice adequately produce and deliver milk to pups, suggesting that milk ejection is unaffected. Thus the present study suggests that a loss-of-function mutant of Cx43 with partial gap junction channel coupling conductance results in a less severe mammary gland phenotype, which may partially explain the lack of reported lactation defects associated with ODDD patients.

Published

2012

45. Heterotypic connexin50/connexin50 mutant gap junction channels reveal interactions between two hemichannels during transjunctional voltage-dependent gating

Author

Yiguo Sun, Donglin Bai, and Li Xin

Subjects

Communication, Physiology, Chemistry, business.industry, Unitary conductance, Mutant, Gap junction, Biophysics, Gating, Voltage dependent gating, business

Abstract

To investigate transjunctional voltage (Vj)-dependent gating mechanisms of connexin50 (Cx50) gap junction (GJ) channels and to elucidate the relative contribution of each hemichannel of a heterotypic GJ channel to Vj-dependent gating, we performed dual voltage-clamp recordings on heterotypic GJ channels formed by Cx50 and a mutant, Cx50N9R or a chimera, Cx50-Cx36N. Our results provide evidence that the two component hemichannels interact with each other during Vj-dependent gating. Cx50/Cx50N9R heterotypic GJ channels exhibited asymmetrical Vj-dependent gating which cannot be ascribed to the function of an individual hemichannel for a certain polarity of voltage; instead it can only be ascribed to the combined effects of both hemichannels. Single GJ channel open dwell-time analyses showed that homotypic Cx50 channels adopted short-lived and long-lived open states. Heterotypic combinations of Cx50/Cx50N9R gave rise to shorter mean dwell-times when Cx50-expressing cells received relatively positive Vj, and longer mean dwell-times when positive Vj was applied at the Cx50N9R side. In contrast, Cx50/Cx50-Cx36N heterotypic channels showed asymmetrical Vj-dependent gating, which appears to be caused by enhanced and reduced Vj-gating sensitivity of Cx50-Cx36N and Cx50 hemichannels, respectively. Unitary conductance of the main open state of both types of heterotypic GJ channel cannot be simply predicted by assuming a Vj redistribution across the two hemichannels arranged in series in heterotypic GJ channels. Our data also reveal reasons for the invisibility of fast Vj-gating transitions from open to substate in homotypic Cx50N9R and Cx50-Cx36N channels.

Published

2012

46. Human dermal fibroblasts derived from oculodentodigital dysplasia patients suggest that patients may have wound‐healing defects

Author

Qing Shao, Kathryn J. Swoboda, Xiang qun Gong, Donglin Bai, Dale W. Laird, Jared M. Churko, and Jacinda B. Sampson

Subjects

Male, Cell, Mutant, Limb Deformities, Congenital, Oculodentodigital dysplasia, Biology, Article, Mice, 03 medical and health sciences, 0302 clinical medicine, Dermis, Genetics, medicine, Animals, Humans, Abnormalities, Multiple, Genetics (clinical), Actin, 030304 developmental biology, Wound Healing, 0303 health sciences, integumentary system, Tooth Abnormalities, Gap junction, Gap Junctions, Anatomy, Fibroblasts, medicine.disease, Molecular biology, medicine.anatomical_structure, Connexin 43, Wound healing, Myofibroblast, 030217 neurology & neurosurgery

Abstract

Oculodentodigital dysplasia (ODDD) is primarily an autosomal dominant human disease caused by any one of over 60 mutations in the GJA1 gene encoding the gap junction protein Cx43. In the present study, wound healing was investigated in a G60S ODDD mutant mouse model and by using dermal fibroblasts isolated from two ODDD patients harboring the p.D3N and p.V216L mutants along with dermal fibroblasts isolated from their respective unaffected relatives. Punch biopsies revealed a delay in wound closure in the G60S mutant mice in comparison to wild-type littermates, and this delay appeared to be due to defects in the dermal fibroblasts. Although both the p.D3N and p.V216L mutants reduced gap junctional intercellular communication in human dermal fibroblasts, immunolocalization studies revealed that Cx43 gap junctions were prevalent at the cell surface of p.D3N expressing fibroblasts but greatly reduced in p.V216L expressing fibroblasts. Mutant expressing fibroblasts were further found to have reduced proliferation and migration capabilities. Finally, in response to TGFβ1, mutant expressing fibroblasts expressed significantly less alpha smooth muscle actin suggesting they were inefficient in their ability to differentiate into myofibroblasts. Collectively, our results suggest that ODDD patients may have subclinical defects in wound healing due to impaired function of dermal fibroblasts.

Published

2011

47. The Residues in the Amino Terminal and First Extracellular Domains and Intracellular Magnesium Influence Cx50 Unitary Gap Junction Channel Conductance

Author

Swathy Sudhakar, Mary Grace Tejada, Hiroshi Aoyama, and Donglin Bai

Subjects

chemistry, Magnesium, Amino terminal, Biophysics, Extracellular, chemistry.chemical_element, Conductance, Gap junction channel, Intracellular

Published

2018

48. Fate of connexin43 in cardiac tissue harbouring a disease-linked connexin43 mutant

Author

Donglin Bai, Jared M. Churko, Dale W. Laird, Qing Shao, Janet L. Manias, Xiang qun Gong, and Isabelle Plante

Subjects

Male, medicine.medical_specialty, Patch-Clamp Techniques, Physiology, Mutant, Golgi Apparatus, Cell Communication, Oculodentodigital dysplasia, Biology, Immunofluorescence, medicine.disease_cause, Connexins, Congenital Abnormalities, Mice, Physiology (medical), Internal medicine, medicine, Animals, Myocyte, Myocytes, Cardiac, Patch clamp, Cells, Cultured, Mutation, medicine.diagnostic_test, Myocardium, Gap junction, Gap Junctions, medicine.disease, Myocardial Contraction, Mice, Mutant Strains, Cell biology, Mice, Inbred C57BL, Blot, Disease Models, Animal, Endocrinology, Connexin 43, cardiovascular system, Female, sense organs, biological phenomena, cell phenomena, and immunity, Cardiology and Cardiovascular Medicine

Abstract

Aims More than 40 mutations in the GJA1 gene encoding connexin43 (Cx43) have been linked to oculodentodigital dysplasia (ODDD), a pleiotropic, autosomal dominant disorder. We hypothesized that even with a significant reduction in the levels of Cx43 in a mutant mouse model of ODDD ( Gja1Jrt/+ ) harbouring a G60S mutation (Cx43G60S), cardiomyocyte function may only be moderately compromised given that a majority of mutant mice typically survive. Methods and results Western blotting and quantitative reverse transcriptase-polymerase chain reaction in conjunction with immunofluorescence were used to assess the expression and localization of Cx43 in hearts and cultured cardiomyocytes from wild-type and Gja1Jrt/+ mice. Dye-coupling and dual whole cell patch-clamp recordings were also used to assess the gap junction channel status in cultured cardiomyocytes from wild-type and mutant mice. Cardiac tissue from adult Gja1Jrt/+ mice revealed a 60–80% reduction in Cx43 protein with a preferential loss of the highly phosphorylated forms of Cx43. Compensation via the up-regulation of Cx40 or Cx45 was not observed. Immunofluorescent analysis of cultured cardiomyocytes revealed a trafficking defect, with a decrease in Cx43 plaques and a large population of Cx43 being retained in the Golgi apparatus. However, cultured cardiomyocytes from mutant mice remained beating with a 50% decrease in coupling conductance. Conclusion These results suggest that the Cx43G60S mutant impairs normal trafficking and function of co-expressed Cx43 with no dramatic effect on cardiomyocyte function, suggesting that Cx43 is biosynthesized in excess of an essential need.

Published

2008

49. The First Extracellular Domain Plays an Important Role in Unitary Channel Conductance of Cx50 Gap Junction Channels

Author

Honghong Chen, Xiaoling Tong, Hiroshi Aoyama, Donglin Bai, Brian H. Shilton, and Swathy Sudhakar

Subjects

Static Electricity, lcsh:Medicine, Connexin, Connexins, Ion Channels, Ion, Mice, Cell Line, Tumor, Static electricity, Animals, Humans, lcsh:Science, Ion channel, Physics, Multidisciplinary, Voltage-gated ion channel, lcsh:R, Gap junction, Conductance, Gap Junctions, Electrostatics, Protein Structure, Tertiary, Mutation, Biophysics, lcsh:Q, Ion Channel Gating, HeLa Cells, Research Article

Abstract

Gap junction (GJ) channels provide direct passage for ions and small molecules to be exchanged between neighbouring cells and are crucial for many physiological processes. GJ channels can be gated by transjunctional voltage (known as Vj-gating) and display a wide range of unitary channel conductance (γj), yet the domains responsible for Vj-gating and γj are not fully clear. The first extracellular domain (E1) of several connexins has been shown to line part of their GJ channel pore and play important roles in Vj-gating properties and/or ion permeation selectivity. To test roles of the E1 of Cx50 GJ channels, we generated a chimera, Cx50Cx36E1, where the E1 domain of Cx50 was replaced with that of Cx36, a connexin showing quite distinct Vj-gating and γj from those of Cx50. Detailed characterizations of the chimera and three point mutants in E1 revealed that, although the E1 domain is important in determining γj, the E1 domain of Cx36 is able to effectively function within the context of the Cx50 channel with minor changes in Vj-gating properties, indicating that sequence differences between the E1 domains in Cx36 and Cx50 cannot account for their drastic differences in Vj-gating and γj. Our homology models of the chimera and the E1 mutants revealed that electrostatic properties of the pore-lining residues and their contribution to the electric field in the pore are important factors for the rate of ion permeation of Cx50 and possibly other GJ channels.

Published

2015

50. Engineered Cx26 variants established functional heterotypic Cx26/Cx43 and Cx26/Cx40 gap junction channels

Author

Levent B Karademir, Honghong Chen, Benny Yue, Donglin Bai, and Hiroshi Aoyama

Subjects

0301 basic medicine, Mutant, Molecular Sequence Data, Connexin, Biology, Protein Engineering, Biochemistry, Connexins, 03 medical and health sciences, Mice, 0302 clinical medicine, Cell Line, Tumor, otorhinolaryngologic diseases, Animals, Humans, Amino Acid Sequence, Molecular Biology, Gap junction, Gap Junctions, Cell Biology, Cell biology, Connexin 26, Electrophysiology, 030104 developmental biology, Docking (molecular), Connexin 43, sense organs, Gap junction channel, Sequence Alignment, 030217 neurology & neurosurgery, HeLa Cells, Protein Binding

Abstract

Gap junction (GJ) channels mediate direct intercellular communication and are composed of two docked hemichannels (connexin oligomers). It is well documented that the docking and formation of GJs are possible only between compatible hemichannels (or connexins). The mechanisms of heterotypic docking compatibility are not fully clear. We aligned the protein sequences of docking-compatible and -incompatible connexins with that of connexin26 (Cx26). We found that two docking hydrogen bond (HB)-forming residues on the second extracellular domain (E2) of Cx26 and their equivalent residues are well conserved within docking-compatible connexins, but different between docking-incompatible connexins. Replacing one or both of these residues of Cx26 into the corresponding residues in the docking incompatible connexins (K168V, N176H or K168V-N176H) increased the formation of morphological and functional heterotypic GJs with connexin43 (Cx43) or connexin40 (Cx40), indicating that these two residues are important for docking incompatibility between Cx26 and these connexins. Our homology structure models predict that both HBs and hydrophobic interactions at the E2 docking interface are important docking mechanisms in heterotypic Cx26 K168V-N176H/Cx43 GJs and probably other docking compatible connexins. Revealing the key residues and mechanisms of heterotypic docking compatibility will assist us in understanding why these putative docking residues are hotspots of disease-linked mutants.

Published

2015