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1.
Genetic defects leading to epilepsy have been identified in gamma2 GABA(A) receptor subunit. A gamma2(R43Q) substitution is linked to childhood absence epilepsy and febrile seizure, and a gamma2(K289M) mutation is associated with generalized epilepsy with febrile seizures plus. To understand the effect of these mutations, surface targeting of GABA(A) receptors was analyzed by subunit-specific immunofluorescent labeling of living cells. We first transfected hippocampal neurons in culture with recombinant gamma2 constructs and showed that the gamma 2(R43Q) mutation prevented surface expression of the subunit, unlike gamma2(K289M) substitution. Several gamma2-subunit constructs, bearing point mutations within the Arg-43 domain, were expressed in COS-7 cells with alpha3- and beta3-subunits. R43Q and R43A substitutions dramatically reduced surface expression of the gamma2-subunit, whereas R43K, P44A, and D39A substitutions had a lesser, but still significant, impact and K289M substitution had no effect. Whereas the mutant gamma2(R43Q) was retained within intracellular compartments, alphabeta complexes were still targeted at the cell membrane. Coimmunoprecipitation experiments showed that gamma2(R43Q) was able to associate with alpha3- or beta3-subunits, although the stoichiometry of the complex with alpha3 was altered. Our data show that gamma2(R43Q) is not a dominant negative and that the mutation leads to a modification of GABA(A) receptor subunit composition on the cell surface that impairs the synaptic targeting in neurons. This study reveals an involvement of the gamma2-Arg-43 domain in the control of receptor assembly that may be relevant to the effect of the heterozygous gamma2(R43Q) mutation leading to childhood absence epilepsy and febrile seizure.  相似文献   

2.
Receptors for insulin and epidermal growth factor contain cysteine-rich domains in the extracellular portion of the molecule. His209 (insulin receptor numbering system) is 1 of 2 amino acid residues that are identically conserved in the cysteine-rich domains of insulin receptors, epidermal growth factor receptors, and other homologous receptors. Previously, we have identified a patient with leprechaunism who is homozygous for a mutation substituting Arg for His209 in the insulin receptor gene (Kadowaki, T., Kadowaki, H., Rechler, M. M., Serrano-Rios, M., Roth, J., Gorden, P., and Taylor, S. I. (1990) J. Clin. Invest. 86, 254-264). In this investigation, the Arg209 mutant receptor was expressed by transfection of mutant cDNA into NIH-3T3 cells. The mutation impairs several steps in the post-translational processing of the insulin receptor:dimerization of 190-kDa proreceptors into a disulfide linked species, proteolytic cleavage of the proreceptor into alpha- and beta-subunits, and terminal processing of the high mannose form of N-linked oligosaccharide into complex carbohydrate. In addition, the defects in post-translational processing within the endoplasmic reticulum and Golgi apparatus are associated with a marked inhibition in transport of receptors to the plasma membrane. Nevertheless, a small number (approximately 10%) of the receptors are transported to the cell surface. These receptors on the cell surface bind insulin with normal affinity and have normal tyrosine kinase activity.  相似文献   

3.
Serine 171 in the GABA(A) receptor gamma2 subunit is highly conserved in the ligand-gated ion channel superfamily. In this paper, we report that mutating serine 171 within gamma2 to glycine or cysteine prevents the interaction of gamma2 with alpha2 and beta1 when these subunits are co-expressed in human embryo kidney 293 cells, resulting in intracellular retention of gamma2. Structure analysis based on a three-dimensional homology model of gamma2 (Ernst, M., Brauchart, D., Boresch, S., and Sieghart, W. (2003) Neuroscience 119, 933-943) reveals that serine 171 may play a critical role in the formation and stabilization of an exposed turn structure that is part of the subunit interaction site. Mutation of serine 171 in the gamma2 subunit could therefore result in alteration of the structure of the subunit interaction site, preventing correct subunit assembly.  相似文献   

4.
The A2A and A2B adenosine receptors (A2AR and A2BR) are implicated in many physiological processes. However, the mechanisms of their intracellular maturation and trafficking are poorly understood. In comparative studies of A2AR versus A2BR expression in transfected cells, we noticed that the levels of cell surface expression of A2BR were significantly lower than those of A2AR. A large portion of the A2BR was degraded by the proteasome. Studies of cell surface expression of A2BR chimeric molecules in transfectants suggested that A2BR does not have the dominant forward transport signal for export from the endoplasmic reticulum to the cell surface. A2BR surface expression was increased in A2BR chimeras where the A2BR carboxyl terminus (CT) was replaced or fused with the A2AR CT. Co-transfection of A2AR with A2BR enhanced surface expression of A2BR though the F(X)(6)LL motif in the A2AR CT. The requirements of A2AR expression for better A2BR cell surface expression was not only established in transfectants but also confirmed by observations of much lower levels of A2BR-induced intracellular cAMP accumulation in response to A2BR-activating ligand in splenocytes from A2AR(-/-) mice than in wild type mice. The results of mechanistic studies suggested that poor A2BR expression at the cell surface might be accounted for mainly by the lack of a dominant forward transport signal from the endoplasmic reticulum to the plasma membrane; it is likely that A2BR forms a hetero-oligomer complex for better function.  相似文献   

5.
A mutation in the alpha1-subunit (A322D) of GABA(A)Rs is responsible for juvenile myoclonic epilepsy in a large Canadian family. Previous work has identified that this mutant affects the cell expression and function of recombinant GABA(A)Rs, expressed in HEK293 cells. Here we have extended these observations by showing that the mutation promotes association with the endoplasmic reticulum chaperone calnexin and accelerates the degradation rate of the subunits approximately 2.5-fold. We also find that the mutation causes the subunit to be degraded largely by a lysosomal-dependent process. Furthermore, we find that the mutation results in receptors that are inserted into the plasma membrane but are more rapidly endocytosed by a dynamin and caveolin1-dependent mechanism. These results suggest that the mutant subunit can form functional receptors, but that these have a shorter lifetime on the plasma membrane.  相似文献   

6.
We screened 124 individuals for single nucleotide polymorphisms of the alpha1, beta3 and gamma2 genes of the GABA(A) receptor in the regions corresponding to the ligand-binding domains on the protein level. In a patient with chronic insomnia, a missense mutation was found in the gene of the beta3 subunit. This mutation results in the substitution of the amino acid residue arginine for histidine in position 192 (beta3(R192H)). The patient was found to be heterozygous for this mutation. Functional analysis of human alpha1beta3(R192H)gamma2S GABA(A) receptors using ultra fast perfusion techniques revealed a slower rate of the fast phase of desensitization compared with alpha1beta3gamma2S GABA(A) receptors. Additionally, current deactivation [a major determinant of inhibitory postsynaptic current (IPSC) duration] was faster in the mutated receptors. This raises the possibility of decreased GABAergic inhibition contributing to insomnia, as some members of the patient's family also suffer from insomnia. The mutation beta3(R192H) might, therefore, be linked to this condition. The intron/exon boundaries of the alpha1 subunit gene were also established and three additional variants were found in the alpha1 and beta3 genes.  相似文献   

7.
8.
We identified a single amino acid mutation that abolished the bioactivity of human IFN gamma. The mutation was identified by screening a mutagenized IFN gamma expression library for molecules with altered biological activity. The mutant protein was expressed at high levels in Escherichia coli, and remained soluble upon purification. However, the protein was completely inactive in all IFN gamma assays investigated, exhibiting less than 0.0006% of the specific activity of native IFN gamma antiviral activity. Sequencing the plasmid DNA encoding this mutant protein showed that the histidine at position 111 of native human IFN gamma is changed to aspartic acid (IFN gamma/H111D). Other mutations at this site showed that only hydrophobic amino acids at position 111 maintain significant, though low, biological activity. Structural characterization of the IFN gamma/H111D protein by NMR as well as CD spectroscopy demonstrated that the protein has limited conformational differences from native IFN gamma. Models of the X-ray crystal structure of human IFN gamma [Ealick, P.E., W.J. Cook, S. Vijay-Kumar, M. Carson, T.L. Nagabhushan, P.P. Trotta and C.E. Bugg (1991) Science, 252, 698-702] suggest that this histidine residue is located at a severe 55 degrees bend in the C-terminal F helix. We conclude that H111 lies within or affects the receptor binding domain of human IFN gamma.  相似文献   

9.
During short incubation in serum-free medium, polymorphonuclear neutrophils (PMN) release soluble material that can be characterized as receptors for Fc IgG (Fc gamma R) on the following evidence: it agglutinates erythrocyte-IgG antibody (EAG) complexes, it prevents the binding of EAG to EAG-rosette-forming cells, and it binds to EAG-rosette-forming cells after modulation of their Fc gamma R, allowing the formation of 'passive' rosettes. These Fc gamma R were isolated by affinity chromatography on sepharose 4B-IgG. This material was shown to interfere with the differentiation of peripheral blood B cells into Ig-secreting cells in cultures stimulated by pokeweed (PWM) or Nocardia opaca (NOC) extracts. The number of Ig-secreting cells determined by a reverse hemolytic plaque assay using protein A-coated sheep erythrocytes was decreased by addition of Fc gamma R over a wide range of dilutions. The number of Ig-containing cells was diminished in PWM-stimulated cultures, but not in cultures stimulated with NOC. Fc gamma R did not affect cell viability, nor did they interfere with plaque-forming cell assay. Fc gamma R was not suppressive when added before the 3rd day or after the 6th day of culture. The suppressor factor was shown to remain associated with Fc gamma R after elution at acidic pH; it was removed by absorption on Sepharose 4B-IgG, but not on pepsin-digested F(ab')2 fragments. The suppressive factor as well as the capacity to restore EAG rosette formation by modulated lymphocytes were destroyed by heating (56 degrees C, 30 min) or by freezing and thawing. Properties of Fc gamma R released from PMN in this system are similar to those of Fc gamma R released from unstimulated human peripheral blood lymphocytes (PBL) and to those of mouse Ig-binding factor produced by alloactivated T cells or T cell lines.  相似文献   

10.
To improve our understanding of the cutaneous vitamin D system, we studied vitamin D receptor (VDR) gene regulation in cultured human keratinocytes. Because VDR and its ligand 1 alpha,25-dihydroxyvitamin D(3) have been implicated in epidermal growth control, we investigated VDR expression as related to cellular proliferation by using different cell cycle synchronization protocols. Keratinocytes, deprived of growth factors, were forced into quiescence and a concomitant loss of VDR expression was observed. Mitogenic stimulation of these G(0) cells however quickly upregulated VDR levels several hours ahead the G(1)-S transition point. Growth arrest at the G(1)-S border by mimosine treatment or at the metaphase by nocodazole also downregulated VDR levels but a restoration of VDR expression was again quickly achieved after reentering the cell cycle. These findings indicate that VDR expression in keratinocytes is restricted to actively cycling cells, but not limited to one particular phase of the cell cycle.  相似文献   

11.
12.
Ramakrishnan L  Hess GP 《Biochemistry》2004,43(23):7534-7540
A recent report indicates that a lysine-to-methionine mutation (K289M) in the gamma2 subunit of a human gamma-aminobutyric acid neurotransmitter receptor, the GABA(A) receptor, is linked to generalized epilepsy with febrile seizures [Baulac et al. (2001) Nat. Genet. 28, 46-48]. This mutation caused a decreased current response to GABA [Baulac et al. (2001) Nat. Genet. 28, 46-48]. Here we determine changes that occur in the mechanism of opening and closing of transmembrane channels formed by the GABA(A) receptor as a result of this mutation. The K289M mutation was introduced into the gamma2L subunit of the rat GABA(A) receptor, and the mutated subunit was coexpressed with the alpha1 and beta2 subunits in HEK293 cells. Transient kinetic techniques suitable for investigating reactions on cell surfaces with a microsecond-to-millisecond time resolution [Hess, G. P., and Grewer, C. (1998) Methods Enzymol. 291, 443-473] were used. They allow one to determine not only the channel-opening probability and rates of receptor desensitization but also the opening and closing rates of the mutated GABA(A) receptor channel. The channel-opening equilibrium constant of the mutated receptor was found to be 5-fold lower than that of the wild type. We calculated that this decrease in the channel-opening equilibrium accounts for the dysfunction of the mutated receptor. We discuss how a knowledge of the mechanism of the mutated receptor indicates an approach for alleviating this dysfunction.  相似文献   

13.
Mutations in the insulin receptor gene can compromise the ability of the receptor to mediate insulin action. Previously, in investigations of a patient with a genetic form of insulin resistance, we have identified a mutant allele encoding an insulin receptor in which lysine is substituted for asparagine at position 15 of the alpha-subunit. In the present study, we have characterized the Lys15-mutant receptor expressed by transfection of mutant cDNA into NIH-3T3 cells. The Lys15-mutation causes at least two defects in insulin receptor function. First, the mutation retards the post-translational processing of the receptor and impairs transport of the receptor to the plasma membrane, thereby reducing the number of receptors on the cell surface. Second, the mutation causes a 5-fold reduction in the affinity of the receptor to bind insulin. These two defects combine to render the target cell resistant to normal physiological concentrations of insulin. It seems likely that both functional defects associated with the Lys15-mutation can be explained by assuming that the mutation distorts the three-dimensional structure of the receptor. Presumably, the abnormal conformation interferes with the transport of the receptor through the endoplasmic reticulum and Golgi, and also inhibits the binding of insulin to its binding site on the receptor.  相似文献   

14.
The third intracellular (3i) loops of the alpha 2A- and alpha 2B-adrenergic receptor (AR) subtypes are critical for retention of these receptors at the basolateral surface of polarized Madin-Darby canine kidney (MDCKII) cells at steady state. The third intracellular loops of the alpha 2A, alpha 2B, and alpha 2C-AR subtypes interact with spinophilin, a multidomain protein that, like the three alpha 2-AR subtypes, is enriched at the basolateral surface of MDCKII cells. The present studies provide evidence that alpha 2-AR interaction with spinophilin contributes to cell surface stabilization of the receptor. We exploited the unique targeting profile of the alpha 2B-AR subtype in MDCKII cells: random delivery to apical and basolateral surfaces with rapid (t(1/2) < or = 60 min) apical versus slower (t(1/2) = 10-12 h) basolateral turnover. Apical delivery of a spinophilin subdomain containing the alpha 2-AR-interacting region (Sp151-483) by fusion with apically targeted p75NTR extended the half-life of alpha 2B-AR at the apical surface to approximately 3.6 h and eliminated the rapid phase (0-60 min) of alpha 2B-AR turnover on that surface. Furthermore, we examined alpha 2B-AR turnover at the surface of mouse embryo fibroblasts derived from wild type (Sp+/+) or spinophilin knock-out (Sp-/-) mice. Two independent experimental approaches demonstrated that agonist-evoked internalization of HA-alpha 2B-AR was accelerated in mouse embryo fibroblasts derived from Sp-/- mice. These findings are consistent with the interpretation that endogenous spinophilin contributes to the stabilization of alpha 2B-AR and presumably all three alpha2-AR subtypes at the surface of target cells and may act as a scaffold that could link alpha 2-ARs to proteins interacting with spinophilin via other domains.  相似文献   

15.
The beta(1)-adrenergic receptor (beta(1)AR) has one predicted site of N-linked glycosylation on its extracellular amino-terminus, but the glycosylation and potential functional importance of this site have not yet been examined. We show here that the beta(1)AR is glycosylated in various cell types and that mutation of the single predicted site of N-linked glycosylation (N15A) results in the formation of receptors that are not N-glycosylated. The beta(1)AR N15A mutant exhibited significantly decreased basal surface expression relative to the wild-type receptor but had no detectable deficits in ligand binding or agonist-promoted internalization. Co-immunoprecipitation experiments using Flag-tagged and HA-tagged receptors demonstrated that the beta(1)AR-N15A mutant receptor exhibits a markedly reduced capacity for dimerization relative to wild-type beta(1)AR. These data reveal that the beta(1)AR is glycosylated on Asn15 and that this glycosylation plays a role in regulating beta(1)AR surface expression and dimerization.  相似文献   

16.
Receptor activity modifying proteins RAMP1, RAMP2, and RAMP3 are responsible for defining affinity to ligands of the calcitonin receptor-like receptor (CRLR). It has also been proposed that receptor activity-modifying proteins (RAMP) are molecular chaperones required for CRLR transport to the cell surface. Here, we have studied the respective roles of CRLR and RAMP in transporting CRLR/RAMP heterodimers to the plasma membrane by using a highly specific binding assay that allows quantitative detection of cell surface-expressed CRLR or RAMP in the Xenopus oocytes expression system. We show that: (i) heterodimer assembly is not a prerequisite for efficient cell surface expression of CRLR, (ii) N-glycosylated RAMP2 and RAMP3 are expressed at the cell surface and their transport to the plasma membrane requires N-glycans, (iii) RAMP1 is not N-glycosylated and is transported to the plasma membrane only upon formation of heterodimers with CRLR, and (iv) introduction of N-glycosylation sites in the RAMP1 sequence (D58N/G60S, Y71N, and K103N/P105S) allows cell surface expression of these mutants at levels similar to that of wild-type RAMP1 co-expressed with CRLR. Our data argue against a chaperone function for RAMP and identify the role of N-glycosylation in targeting these molecules to the cell surface.  相似文献   

17.
Gu X  Xing L  Shi G  Liu Z  Wang X  Qu Z  Wu X  Dong Z  Gao X  Liu G  Yang L  Xu Y 《Cell death and differentiation》2012,19(3):397-405
Circadian oscillation and cell cycle progression are the two most essential rhythmic events present in almost all organisms. Circadian rhythms keep track of time and provide temporal regulation with a period of about 24 h. The cell cycle is optimized for growth and division, but not for time keeping. Circadian gated cell divisions are observed in nearly all organisms. However, the implications of this coupling to the physiology of mammals are unknown. A mutation (S662G) in the clock protein PERIOD2 (PER2) is responsible for familial advanced sleep phase syndrome in which sleep onset occurs in the early evening and wakefulness occurs in the early morning. Here, we provide evidence that the PER2S662 mutation leads to enhanced resistance to X-ray-induced apoptosis and increased E1A- and RAS-mediated oncogenic transformation. Accordingly, the PER2S662 mutation affects tumorigenesis in cancer-sensitized p53R172H/+ mice. Finally, analyzing the clock-controlled cell cycle genes p21, c-Myc, Cyclin D1 and p27, we found that the relative phases between p21 and Cyclin D expression profiles have been changed significantly in these Per2 allele mutant mouse embryonic fibroblasts. This key role of the Per2-mediated phase alteration of p21 provides what we believe to be a novel mechanism in understanding cell cycle progression, its plasticity and its resistance to interference.  相似文献   

18.
The presence of phospholipase A2 activity within human B cell Fc gamma receptors was investigated. Lysate produced by detergent treatment of chronic lymphocytic leukemia cells that had 1% of the cells surface radioiodinated was subjected to affinity chromatography by using either rac-1-(9-carboxynonyl)-2-hexadecylglycero-3-phosphorylcholine-Sepharose (PC-Sepharose) or heat-aggregated human IgG-Sepharose 4B conjugate (IgG-Sepharose). The materials eluted from both adsorbants by ethylenediaminetetraacetate- or urea-containing buffer were further purified by gel filtration and isoelectric focusing in the presence of 6 M urea. Both isolated PC- and IgG-binding materials were homogeneous, when judged by gel filtration and isoelectric focusing, and had identical isoelectric points (pI = 6.5), peptide maps, and amino acid compositions. Furthermore, both preparations catalyzed equally the hydrolysis of phosphatidylcholine to release fatty acid from the 2 position. Optimal enzymatic activity depended on the presence of Ca2+, was maximal at pH 9.5, and was augmented by Fc gamma fragments. Both preparations specifically bound to the Fc portion of IgG and inhibited human antibody-coated erythrocyte rosette formation by peripheral mononuclear cells. Our data thus demonstrate the identity of PC- and IgG-binding materials and suggest that a functional activity of the human B cell Fc gamma receptor is the generation of phospholipase A2 activity within the plasma membrane.  相似文献   

19.
20.
Kainate receptors (KARs) modulate synaptic transmission at both pre-synaptic and post-synaptic sites. The overlap in the distribution of KA-2 and GluR6/7 subunits in several brain regions suggests the co-assembly of these subunits in native KARs. The molecular mechanisms that control the assembly and surface expression of KARs are unknown. Unlike GluR5-7, the KA-2 subunit is unable to form functional homomeric KAR channels. We expressed the KA-2 subunit alone or in combination with other KAR subunits in HEK-293 cells. The cell surface expression of the KAR subunit homo- and heteromers were analysed using biotinylation and agonist-stimulated cobalt uptake. While GluR6 or GluR7 homomers were expressed on the cell surface, KA-2 alone was retained within the endoplasmic reticulum. We found that the cell surface expression of KA-2 was dramatically increased by co-expression with either of the low-affinity KAR subunits GluR5-7. However, co-expression with other related ionotropic glutamate receptor subunits (GluR1 and NR1) does not facilitate the cell surface expression of KA-2. The analysis of subcellular fractions of neocortex revealed that synaptic KARs have a relatively high KA-2 content compared to microsomal ones. Thus, KA-2 is likely to contain an endoplasmic reticulum retention signal that is shielded on assembly with other KAR subunits.  相似文献   

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