Retinoid Binding Properties of Nucleotide Binding Domain 1 of the Stargardt Disease-associated ATP Binding Cassette (ABC) Transporter,ABCA4

The retina-specific ATP binding cassette transporter, ABCA4 protein, is associated with a broad range of inherited macular degenerations, including Stargardt disease, autosomal recessive cone rod dystrophy, and fundus flavimaculatus. In order to understand its role in retinal transport in rod out segment discs, we have investigated the interactions of the soluble domains of ABCA4 with both 11-cis- and all-trans-retinal. Using fluorescence anisotropy-based binding analysis and recombinant polypeptides derived from the amino acid sequences of the four soluble domains of ABCA4, we demonstrated that the nucleotide binding domain 1 (NBD1) specifically bound 11-cis-retinal. Its affinity for all-trans-retinal was markedly reduced. Stargardt disease-associated mutations in this domain resulted in attenuation of 11-cis-retinal binding. Significant differences in 11-cis-retinal binding affinities were observed between NBD1 and other cytoplasmic and lumenal domains of ABCA4. The results suggest a possible role of ABCA4 and, in particular, the NBD1 domain in 11-cis-retinal binding. These results also correlate well with a recent report on the in vivo role of ABCA4 in 11-cis-retinal transport.     

应用重离子束苏制核微孔滤膜除菌除支原体的研究

本文采用苏制核微孔滤膜进行了除菌、除支原体实验研究,核孔膜孔径分别为０．０７、０．１、０．５、０．７及１．５微米,采用的菌种为白色葡萄球菌、链球菌和大肠杆菌,支原体为解脲脲原体,实验结果表明：０．０７及０．１微米的核孔膜可完全滤除细菌及支原体,０．５微米的核孔膜可滤除绝大部分细菌,不能滤除支原体,１．５微米的核孔膜只能滤除少量细菌。     

Evidence suggesting that the minimal functional unit of a renal cystine transporter is a heterodimer and its implications in cystinuria

Summary Cystinuria, one of the most common genetic disorders, is characterized by excessive excretion of cystine and basic amino acids in urine. The low solubility of cystine results in formation of kidney stones which can eventually lead to renal failure. Three types of cystinurias have been described. All involve defects in a high-affinity transport system for cystine in the brush border membranes of kidney and intestinal epithelial cells. The molecular properties of proteins involved in epithelial cystine transport are incompletely understood. A protein (NBAT, neutral and basic amino acid transporter), initially cloned by us from rat kidney and shown to be localized in the renal and intestinal brush border membranes, has been implicated in this transport, and mutations in human NBAT gene have been found in several cystinurics, making it a prime candidate for a cystinuria gene. However, mutations in NBAT were found only in Type I cystinurics and not in Types II and III suggesting that defects in other, as yet uncharacterized, genes may also be involved. NBAT has an unusual (for an amino acid transporter) membrane topology. We proposed that the protein contains four membrane-spanning domains, a model disputed by other investigators. We subsequently obtained experimental data consistent with a four membrane-spanning domain model. Furthermore, recently we showed that kidney and intestinal NBAT (85kDa) is associated with another brush border membrane protein (about 50kDa) and have proposed that the heterodimer represents the minimal functional unit of the high-affinity cystine transporter in these membranes. These findings raise the tantalizing possibilities that defects in the NBAT-associated protein might account for cystinurias in individuals with normal NBAT gene (such as the Types II and III cystinurics).     

Effects of N,N′-dicyclohexylcarbodiimide on isolated and reconstituted cytochrome b-c1 complex from bovine heart mitochondria

N,N′-Dicyclohexylcarbodiimide (DCCD) inhibits the activity of ubiquinol-cytochrome c reductase in the isolated and reconstitued mitochondrial cytochrome b-c₁ complex. DCCD inhibits equally electron flow and proton translocation (i.e., the $\text{H}{}^{\mathrm{+}}\text{e}{}^{\mathrm{?}}$ ratio is not affected) catalysed by the enzyme reconstituted into phospholipid vesicles. The inhibitory effects are accompanied by structural alterations in the polypeptide pattern of both isolated and reconstituted enzyme. Cross-linking was observed between subunits V (iron-sulfur protein) and VII, indicating that these polypeptides are in close proximity. A clear correlation was found between the kinetics of inhibition of enzymic activity and the cross-linking, suggesting that the two phenomena may be coupled. Binding of [¹⁴C]DCCD was also observed, to all subunits with the isolated enzyme and preferentially to cytochrome b with the reconstituted vesicles; in both cases, however, it was not correlated kinetically with the inhibition of the enzymic activity.     

Isolation of the sodium-dependent d-glucose transport protein from brush-border membranes

Rabbit kidney brush-border membrane vesicles were exposed to bacterial protease which cleaves off a large number of externally oriented proteins. Na⁺-dependent d-glucose transport is left intact in the protease-treated vesicles. The protease-treated membrane was solubilized with deoxycholate and the deoxycholate-extracted proteins were further resolved by passage through Con A-Sepharose columns. Sodium-dependent d-glucose activity was found to reside in a fraction containing a single protein band of M_r ? 165000 which is apparently a dimer of M_r ? 85 000. When reconstituted and tested for transport, this protein showed Na⁺-dependent, stereo-specific and phlorizin-inhibitable glucose transport. Transport activity is completely recovered and is 20-fold increased in specific activity. A similar isolate was obtained from rabbit small intestinal brush-border membranes and kidneys from several other species of animals.     

The presence of LHRH-like receptors in Dunning R3327H prostate tumors

Quantitative analyses of LH-RH-like membrane receptors were performed in five tumors from the transplantable Dunning R3372H rat prostatic adenocarcinoma. The binding of D-Trp⁶-LH-RH, an agonist of LH-RH, was observed in all 5 tumors. The antagonist [Ac-Dp-Cl-Phe^1,2,D-Trp³,D-Lys⁶,D-Ala¹⁰]-LH-RH was bound to 4 tumors. The apparent equilibrium dissociation constant (K_d) for D-Trp⁶-LH-RH receptor was from 2.6–3.9 × 10^?10 M. The apparent equilibrium B_max values (maximum number of binding sites) were from 17.2–86.0 fmol/mg membrane protein for D-Trp⁶-LH-RH receptor. The K_d for the antagonist was from 2.4–2.7 × 10^?10 M and the B_max values were from 35.5–66.0 fmol/mg membrane protein. Similar binding studies performed in 6 normal rat prostates showed no binding capacities.     

The Sulfonylurea Receptor 1 (Sur1)-Transient Receptor Potential Melastatin 4 (Trpm4) Channel

The sulfonylurea receptor 1 (Sur1)-NC_Ca-ATP channel plays a central role in necrotic cell death in central nervous system (CNS) injury, including ischemic stroke, and traumatic brain and spinal cord injury. Here, we show that Sur1-NC_Ca-ATP channels are formed by co-assembly of Sur1 and transient receptor potential melastatin 4 (Trpm4). Co-expression of Sur1 and Trpm4 yielded Sur1-Trpm4 heteromers, as shown in experiments with Förster resonance energy transfer (FRET) and co-immunoprecipitation. Co-expression of Sur1 and Trpm4 also yielded functional Sur1-Trpm4 channels with biophysical properties of Trpm4 and pharmacological properties of Sur1. Co-assembly with Sur1 doubled the affinity of Trpm4 for calmodulin and doubled its sensitivity to intracellular calcium. Experiments with FRET and co-immunoprecipitation showed de novo appearance of Sur1-Trpm4 heteromers after spinal cord injury in rats. Our findings depart from the long-held view of an exclusive association between Sur1 and K_ATP channels and reveal an unexpected molecular partnership with far-ranging implications for CNS injury.     

Effects of growth temperature on transport and membrane viscosity in Streptococcus faecalis

A shift in the growth temperature of Streptococcus faecalis from 37 to 10°C resulted in an 18% increase in the proportion of unsaturated fatty acids. Electron spin resonance spectra of spin-labeled membranes and extracted phospholipids indicated viscosity changes consistent with the alterations in fatty acid composition. Growth temperature had no significant effect on the active transport of leucine and alanine; uptake rates assayed at 10 or 35°C were essentially the same in cells grown at either 10 or 37°C. The relative rapidity of amino acid transport, which presumably contributes to the ability of S. faecalis to thrive in cold environments, is evidently unrelated to adaptive changes in the viscosity of membrane lipids.Abbreviations doxyl 4-4-dimethyloxazolidine-N-oxyl - proxyl 2,2-disubstituted 5,5-dimethylpyrrolidine-N-oxyl     

Patterned distribution of membrane-associated Ca2+ during pore formation inMicrasterias

Summary During the stage of pore formation developing cells ofMicrasterias denticulata show a patterned distribution of fluorescent dots on the plasma membrane after treatment with chlorotetracycline. The center-to-center spacing of these dots corresponds with the distances between the individual cell wall pores ofMicrasterias. Therefore it is supposed that the patterned distribution of pores and their formation which is mediated by special pore vesicles are related to local accumulations of membrane-associated Ca²⁺. Membrane-associated Ca²⁺ seems not only to be functional in tip growth but to be a general mediator for recognition and fusion processes between various vesicles and the plasma membrane.     

Distinct acyl protein transferases and thioesterases control surface expression of calcium-activated potassium channels

Protein palmitoylation is rapidly emerging as an important determinant in the regulation of ion channels, including large conductance calcium-activated potassium (BK) channels. However, the enzymes that control channel palmitoylation are largely unknown. Indeed, although palmitoylation is the only reversible lipid modification of proteins, acyl thioesterases that control ion channel depalmitoylation have not been identified. Here, we demonstrate that palmitoylation of the intracellular S0-S1 loop of BK channels is controlled by two of the 23 mammalian palmitoyl-transferases, zDHHC22 and zDHHC23. Palmitoylation by these acyl transferases is essential for efficient cell surface expression of BK channels. In contrast, depalmitoylation is controlled by the cytosolic thioesterase APT1 (LYPLA1), but not APT2 (LYPLA2). In addition, we identify a splice variant of LYPLAL1, a homolog with ～30% identity to APT1, that also controls BK channel depalmitoylation. Thus, both palmitoyl acyltransferases and acyl thioesterases display discrete substrate specificity for BK channels. Because depalmitoylated BK channels are retarded in the trans-Golgi network, reversible protein palmitoylation provides a critical checkpoint to regulate exit from the trans-Golgi network and thus control BK channel cell surface expression.