Characterization of a Novel Water Pocket Inside the Human Cx26 Hemichannel Structure

Connexins (Cxs) are a family of vertebrate proteins constituents of gap junction channels (GJCs) that connect the cytoplasm of adjacent cells by the end-to-end docking of two Cx hemichannels. The intercellular transfer through GJCs occurs by passive diffusion allowing the exchange of water, ions, and small molecules. Despite the broad interest to understand, at the molecular level, the functional state of Cx-based channels, there are still many unanswered questions regarding structure-function relationships, perm-selectivity, and gating mechanisms. In particular, the ordering, structure, and dynamics of water inside Cx GJCs and hemichannels remains largely unexplored. In this work, we describe the identification and characterization of a believed novel water pocket—termed the IC pocket—located in-between the four transmembrane helices of each human Cx26 (hCx26) monomer at the intracellular (IC) side. Using molecular dynamics (MD) simulations to characterize hCx26 internal water structure and dynamics, six IC pockets were identified per hemichannel. A detailed characterization of the dynamics and ordering of water including conformational variability of residues forming the IC pockets, together with multiple sequence alignments, allowed us to propose a functional role for this cavity. An in vitro assessment of tracer uptake suggests that the IC pocket residue Arg-143 plays an essential role on the modulation of the hCx26 hemichannel permeability.     

Cx26 Affects the in Vitro Reconstruction of Human Epidermis

To study the function of connexins in human keratinocytes, we have used a three-dimensional culture system, in which a tissue is reconstructed using cells from the outer root sheet of hair follicles. This tissue reproduces in vitro the histological organisation of human epidermis in situ and the normal distribution of several keratinocyte markers. Furthermore, it shows characteristics of a differentiating epidermis, including the expression of connexin26. Connexin26 protein expression is increased under physiological and pathological conditions resulting in increased keratinocyte turnover. Loss of this protein in keratinocytes, obtained from patients carrying a stop mutation, resulted in a reduced stratification of the in vitro reconstructed tissue, probably due to a lower proliferation and migration capacity of the keratinocytes, although dye coupling and persistence of other gap junctions is maintained. No changes were seen in tissues reconstructed with keratinocytes from patients carrying a non stop mutation of connexin30. The data indicate that, at least in vitro, connexin26 affects the function of human keratinocytes, independently of obvious changes in coupling.     

Molecular Cloning and Characterization of a Novel Human CC Chemokine, SCYA26

By searching the Expressed Sequence Tag database, a full-length cDNA for a novel human CC chemokine was cloned. This cDNA encoded a 94-amino-acid protein with a putative signal peptide of 26 amino acids. The deduced mature protein had the four conserved cysteine residues characteristic of CC chemokines and showed 44% identity with MIP-1beta and 40% identity with MIP-1alpha, RANTES, and MCP-4. mRNA for this chemokine was expressed constitutively in human heart and liver and with lesser but detectable levels in skeletal muscle, kidney, and small intestine. To investigate its biological activity, the protein was expressed in mammalian cells and purified by affinity chromatography. The recombinant protein demonstrated chemotactic activity in vitro for T cells and monocytes but not for neutrophils. The gene was mapped to chromosome 7q11.2 by fluorescence in situ hybridization. Based on its structural identity with other CC chemokines and the chemotactic activity and chromosomal location of this chemokine, we designate this chemokine small inducible cytokine subfamily A, member 26 (SCYA26). This gene symbol has been approved by the HUGO Gene Nomenclature Committee.     

Structure and Functional Characterization of a Novel Human Low-Voltage Activated Calcium Channel

Abstract : We have isolated and characterized overlapping cDNAs encoding a novel, voltage-gated Ca²⁺ channel α₁ subunit, α_1H, from a human medullary thyroid carcinoma cell line. The α_1H subunit is structurally similar to previously described α₁ subunits. Northern blot analysis indicates that α_1H mRNA is expressed throughout the brain, primarily in the amygdala, caudate nucleus, and putamen, as well as in several nonneuronal tissues, with relatively high levels in the liver, kidney, and heart. Ba²⁺ currents recorded from human embryonic kidney 293 cells transiently expressing α_1H activated at relatively hyperpolarized potentials (-50 mV), rapidly inactivated (τ = 17 ms), and slowly deactivated. Similar results were observed in Xenopus oocytes expressing α_1H. Singlechannel measurements in human embryonic kidney 293 cells revealed a single-channel conductance of ~9 pS. These channels are blocked by Ni²⁺ (IC₅₀ = 6.6 μ M ) and the T-type channel antagonists mibefradil (~50% block at 1 μ M ) and amiloride (IC₅₀ = 167 μ M ). Thus, α_1H-containing channels exhibit biophysical and pharmacological properties characteristic of low voltage-activated, or T-type, Ca²⁺ channels.     

The Inner Ear Contains Heteromeric Channels Composed of Cx26 and Cx30 and Deafness-Related Mutations in Cx26 Have a Dominant Negative Effect on Cx30

Cx26 and cx30 co-localize in tissues of the mammalian cochlea. Transfected HeLa cells were used to examine interactions between cx26 and cx30 and the effects on cx30 of four point mutations in cx26 that are associated with dominantly inherited hearing loss—W44S, G59A, D66H and R75W. When co-expressed, wtcx26 and wtcx30 trafficked to the same gap junction plaques. Cells transferred neurobiotin but not Lucifer Yellow, which passes freely through cx26 channels, suggesting cx30 affects the properties of cx26. G59A and D66H had a perinuclear localization when expressed alone but trafficked to the membrane when co-expressed with cx30. Co-expression of W44S, G59A or R75W with cx30, significantly reduced neurobiotin transfer in comparison with cells expressing cx30 only. These results indicate that cx26 and cx30 can oligomerize to form heteromeric connexons and demonstrate a dominant negative effect of some cx26 mutants on cx30. Immunogold labeling of thin sections of the cochlea showed both cx26 and cx30 distributed evenly on both sides of individual gap junction profiles. Immunoprecipitation of cochlear membrane proteins, isolated by procedures that preserve connexons, with either cx30 or cx26 antibodies precipitated both cx26 and cx30. Following co-injection of Lucifer Yellow and neurobiotin into individual supporting cells of the organ of Corti in cochlear slices, neurobiotin transferred to many cells, but Lucifer Yellow was retained in the injected cell. These observations are consistent with junctions composed of cx26/cx30 heteromeric connexons in the cochlea. The functional disruption caused by some cx26 mutations upon such heteromeric channels may underlie the non-syndromic nature of their effects on hearing.     

骨组织细胞Cx43形成的间隙连接及半通道研究进展

连接子蛋43（connexin 43,Cx43）是骨组织中主要的间隙连接（gap junction）蛋白和半通道（hemichannel）蛋白,由Cx43形成的间隙连接及半通道实现了骨组织细胞间的直接通讯。连接子蛋白对骨组织的正常发育、骨重建过程的建立与平衡是非常重要的。目前研究指出,Cx43不仅参与了骨组织的力学响应过程,也参与了二磷酸盐、甲状旁腺激素等药物对骨重建的调节过程。该文以骨组织细胞内信号传递途径的关键分子Cx43为对象,就其目前的研究现状作一综述。     

Identification of Cells Expressing Cx43, Cx30, Cx26, Cx32 and Cx36 in Gap Junctions of Rat Brain and Spinal Cord

We have identified cells expressing Cx26, Cx30, Cx32, Cx36 and Cx43 in gap junctions of rat central nervous system (CNS) using confocal light microscopic immunocytochemistry and freeze-fracture replica immunogold labeling (FRIL). Confocal microscopy was used to assess general distributions of connexins, whereas the 100-fold higher resolution of FRIL allowed co-localization of several different connexins within individual ultrastructurally-defined gap junction plaques in ultrastructurally and immunologically identified cell types. In >4000 labeled gap junctions found in >370 FRIL replicas of gray matter in adult rats, Cx26, Cx30 and Cx43 were found only in astrocyte gap junctions; Cx32 was only in oligodendrocytes, and Cx36 was only in neurons. Moreover, Cx26, Cx30 and Cx43 were co-localized in most astrocyte gap junctions. Oligodendrocytes shared intercellular gap junctions only with astrocytes, and these heterologous junctions had Cx32 on the oligodendrocyte side and Cx26, Cx30 and Cx43 on the astrocyte side. In 4 and 18 day postnatal rat spinal cord, neuronal gap junctions contained Cx36, whereas Cx26 was present in leptomenigeal gap junctions. Thus, in adult rat CNS, neurons and glia express different connexins, with “permissive” connexin pairing combinations apparently defining separate pathways for neuronal vs. glial gap junctional communication.     

Identification and Characterization of a Novel Human Phosphatidylinositol 4-kinase

The extensive sequence homology that exists among the catalyticdomains of phosphatidylinositol 3- and 4-kinases allowed usto clone a novel human gene encoding a putative phosphatidylinositolkinase, NPIK. Among other known phosphatidylinositol 3- and4-kinases, NPIK was most closely related to yeast PIK1 phosphatidylinositol4-kinase. Several forms of NPIK cDNAs were isolated, and expressionof NPIK message was detected in a wide variety of tissues. Fluorescencein situ hybridization and radiation hybrid analyses assignedthe NPIK gene to human chromosome 1. Recombinant NPIK proteincatalyzed a conversion from phosphatidylinositol to phosphatidylinositol4-phosphate. The catalytic activity of NPIK was augmented byTriton X-100, and was reduced in the presence of adenosine.Using green .uorescent protein system we determined that NPIKis localized in the cytoplasm. Taken together, the data suggestthat NPIK may play a pivotal role in regulating the synthesisof phosphatidylinositol 4-phosphate at the site(s) accessiblefrom cytoplasm.     

Correlations of Differentially Expressed Gap Junction Connexins Cx26, Cx30, Cx32, Cx43 and Cx46 with Breast Cancer Progression and Prognosis

Background and Aims

Connexins and their cell membrane channels contribute to the control of cell proliferation and compartmental functions in breast glands and their deregulation is linked to breast carcinogenesis. Our aim was to correlate connexin expression with tumor progression and prognosis in primary breast cancers.

Materials and Methods

Meta-analysis of connexin isotype expression data of 1809 and 1899 breast cancers from the Affymetrix and Illumina array platforms, respectively, was performed. Expressed connexins were also monitored at the protein level in tissue microarrays of 127 patients equally representing all tumor grades, using immunofluorescence and multilayer, multichannel digital microscopy. Prognostic correlations were plotted in Kaplan-Meier curves and tested using the log-rank test and cox-regression analysis in univariate and multivariate models.

Results

The expression of GJA1/Cx43, GJA3/Cx46 and GJB2/Cx26 and, for the first time, GJA6/Cx30 and GJB1/Cx32 was revealed both in normal human mammary glands and breast carcinomas. Within their subfamilies these connexins can form homo- and heterocellular epithelial channels. In cancer, the array datasets cross-validated each other’s prognostic results. In line with the significant correlations found at mRNA level, elevated Cx43 protein levels were linked with significantly improved breast cancer outcome, offering Cx43 protein detection as an independent prognostic marker stronger than vascular invasion or necrosis. As a contrary, elevated Cx30 mRNA and protein levels were associated with a reduced disease outcome offering Cx30 protein detection as an independent prognostic marker outperforming mitotic index and necrosis. Elevated versus low Cx43 protein levels allowed the stratification of grade 2 tumors into good and poor relapse free survival subgroups, respectively. Also, elevated versus low Cx30 levels stratified grade 3 patients into poor and good overall survival subgroups, respectively.

Conclusion

Differential expression of Cx43 and Cx30 may serve as potential positive and negative prognostic markers, respectively, for a clinically relevant stratification of breast cancers.     

Cx26 affects the in vitro reconstruction of human epidermis

To study the function of connexins in human keratinocytes, we have used a three-dimensional culture system, in which a tissue is reconstructed using cells from the outer root sheet of hair follicles. This tissue reproduces in vitro the histological organisation of human epidermis in situ and the normal distribution of several keratinocyte markers. Furthermore, it shows characteristics of a differentiating epidermis, including the expression of connexin26. Connexin26 protein expression is increased under physiological and pathological conditions resulting in increased keratinocyte turnover. Loss of this protein in keratinocytes, obtained from patients carrying a stop mutation, resulted in a reduced stratification of the in vitro reconstructed tissue, probably due to a lower proliferation and migration capacity of the keratinocytes, although dye coupling and persistence of other gap junctions is maintained. No changes were seen in tissues reconstructed with keratinocytes from patients carrying a non stop mutation of connexin30. The data indicate that, at least in vitro, connexin26 affects the function of human keratinocytes, independently of obvious changes in coupling.     

Identification of cells expressing Cx43, Cx30, Cx26, Cx32 and Cx36 in gap junctions of rat brain and spinal cord

We have identified cells expressing Cx26, Cx30, Cx32, Cx36 and Cx43 in gap junctions of rat central nervous system (CNS) using confocal light microscopic immunocytochemistry and freeze-fracture replica immunogold labeling (FRIL). Confocal microscopy was used to assess general distributions of connexins, whereas the 100-fold higher resolution of FRIL allowed co-localization of several different connexins within individual ultrastructurally-defined gap junction plaques in ultrastructurally and immunologically identified cell types. In >4000 labeled gap junctions found in >370 FRIL replicas of gray matter in adult rats, Cx26, Cx30 and Cx43 were found only in astrocyte gap junctions; Cx32 was only in oligodendrocytes, and Cx36 was only in neurons. Moreover, Cx26, Cx30 and Cx43 were co-localized in most astrocyte gap junctions. Oligodendrocytes shared intercellular gap junctions only with astrocytes, and these heterologous junctions had Cx32 on the oligodendrocyte side and Cx26, Cx30 and Cx43 on the astrocyte side. In 4 and 18 day postnatal rat spinal cord, neuronal gap junctions contained Cx36, whereas Cx26 was present in leptomenigeal gap junctions. Thus, in adult rat CNS, neurons and glia express different connexins, with "permissive" connexin pairing combinations apparently defining separate pathways for neuronal vs. glial gap junctional communication.     

Role of cytoskeletal elements in the recruitment of Cx43-GFP and Cx26-YFP into gap junctions

Cytoskeletal elements may be important in connexin transport to the cell surface, cell surface gap junction plaque formation and/or gap junction internalization. In this study, fluorescence recovery after photobleaching was used to examine the role of microfilaments and microtubules in the recruitment and coalescence of green fluorescent protein-tagged Cx43 (Cx43-GFP) or yellow fluorescent tagged-Cx26 (Cx26-YFP) into gap junctions in NRK cells. In untreated cells, both Cx26-YFP and Cx43-GFP were recruited into gap junctions within photobleached areas of cell-cell contact within 2 hrs. However, disruption of microfilaments with cytochalasin B inhibited the recruitment and assembly of both Cx26-YFP and Cx43-GFP into gap junctions within photobleached areas. Surprisingly, disruption of microtubules with nocodazole inhibited the recruitment of Cx43-GFP into gap junctions but had limited effect on the transport and clustering of Cx26-YFP into gap junctions within the photobleached regions of cell-cell contact. These results suggest that the recruitment of Cx43-GFP and Cx26-YFP to the cell surface or their lateral clustering into gap junctions plaques is dependent in part on the presence of intact actin microfilaments while Cx43-GFP was more dependent on intact microtubules than Cx26-YFP.     

Isolation and Characterization of a Novel Equol-Producing Bacterium from Human Feces

An equol-producing bacterium was newly isolated from the feces of healthy humans and its morphological and biochemical properties were characterized. The cells were obligate anaerobes. They were non-sporulating, non-motile, gram-positive bacilliform bacteria with a pleomorphic morphology. The strain was catalase-positive, and oxidase-, urease-, and indole-negative. The only other sugar utilized by the strain was glycerin. The strain also degraded gelatin, but not esculin. It was most closely related to Eggerthella hongkongensis HKU10, with 93.3% 16S rDNA nucleotide sequence homology. Based on these features, the isolate was identified as a novel species of the genus Eggerthella. It was named Eggerthella sp. YY7918. Strain YY7918 converted substrates daidzein and dihydrodaidzein into S-equol, but did not convert daidzin, glysitein, genistein, or formononetin into it. An antimicrobial susceptibility assay indicated that strain YY7918 was susceptible to aminoglycoside-, tetracycline-, and new quinolone-antibiotics.     

人类新基因ACBP5cDNA的克隆及其同源物在小鼠/鸡胚发育过程中的表达

利用电子克隆的方法寻找具有重要结构域的人类新基因ACBP5 ,根据得到的序列信息用RT PCR的方法获得全长基因 .通过生物信息学方法预测其结构 ,采用整体原位杂交和组织RT PCR的实验方法 ,在小鼠和鸡胚胎实验模型中研究该基因在发育过程中的表达情况 ,并对其功能进行初步的预测 ,获得一个含有乙酰辅酶A结合蛋白 (acyl CoAbindingprotein ,ACBP)结构域的人类新基因ACBP5 .ACBP5基因的cDNA长度为 10 83bp ,生物信息学方法预测其定位在人第 1号染色体上 ,包含 7个外显子 ,6个内含子 ,包含一个 35 4bp的完整阅读框架 ,编码一个 118个氨基酸残基的蛋白 .在以小鼠胚胎和鸡胚为模型的整体原位杂交中 ,以ACBP5基因全长编码区为探针的结果均显示该基因在胚胎头部特异表达 ,并且主要集中在中脑与间脑之间的峡部 .成体小鼠的组织RT PCR的结果显示 ,ACBP5的同源基因在各组织中均有表达 .这提示ACBP5基因在不同物种中的表达可能比较保守 ,并与头部发育有密切关系 ,同时也对维持细胞的正常功能起到重要的作用 .     

Role of Cytoskeletal Elements in the Recruitment of Cx43-GFP and Cx26-YFP into Gap Junctions

Cytoskeletal elements may be important in connexin transport to the cell surface, cell surface gap junction plaque formation and/or gap junction internalization. In this study, fluorescence recovery after photobleaching was used to examine the role of microfilaments and microtubules in the recruitment and coalescence of green fluorescent protein-tagged Cx43 (Cx43-GFP) or yellow fluorescent tagged-Cx26 (Cx26-YFP) into gap junctions in NRK cells. In untreated cells, both Cx26-YFP and Cx43-GFP were recruited into gap junctions within photobleached areas of cell-cell contact within 2 hrs. However, disruption of microfilaments with cytochalasin B inhibited the recruitment and assembly of both Cx26-YFP and Cx43-GFP into gap junctions within photobleached areas. Surprisingly, disruption of microtubules with nocodazole inhibited the recruitment of Cx43-GFP into gap junctions but had limited effect on the transport and clustering of Cx26-YFP into gapjunctions within the photobleached regions of cell-cell contact. These results suggest that the recruitment of Cx43-GFP and Cx26-YFP to the cell surface or their lateral clustering into gap junctions plaques is dependent in part on the presence of intact actin microfilaments while Cx43-GFP was more dependent on intact microtubules than Cx26-YFP.