Deletion of deoxyribonucleic acid binding domain of the vitamin D receptor abrogates genomic and nongenomic functions of vitamin D

The vitamin D hormone 1,25-dihydroxyvitamin D(3) [1,25-(OH)(2)D(3)], the biologically active form of vitamin D, is essential for an intact mineral metabolism. Using gene targeting, we sought to generate vitamin D receptor (VDR) null mutant mice carrying the reporter gene lacZ driven by the endogenous VDR promoter. Here we show that our gene-targeted mutant mice express a VDR with an intact hormone binding domain, but lacking the first zinc finger necessary for DNA binding. Expression of the lacZ reporter gene was widely distributed during embryogenesis and postnatally. Strong lacZ expression was found in bones, cartilage, intestine, kidney, skin, brain, heart, and parathyroid glands. Homozygous mice are a phenocopy of mice totally lacking the VDR protein and showed growth retardation, rickets, secondary hyperparathyroidism, and alopecia. Feeding of a diet high in calcium, phosphorus, and lactose normalized blood calcium and serum PTH levels, but revealed a profound renal calcium leak in normocalcemic homozygous mutants. When mice were treated with pharmacological doses of vitamin D metabolites, responses in skin, bone, intestine, parathyroid glands, and kidney were absent in homozygous mice, indicating that the mutant receptor is nonfunctioning and that vitamin D signaling pathways other than those mediated through the classical nuclear receptor are of minor physiological importance. Furthermore, rapid, nongenomic responses to 1,25-(OH)(2)D(3) in osteoblasts were abrogated in homozygous mice, supporting the conclusion that the classical VDR mediates the nongenomic actions of 1,25-(OH)(2)D(3).     

Extracellular cysteines define ectopeptidase (APN, CD13) expression and function

Alanyl aminopeptidase (APN) is a surface-bound metallopeptidase that processes the N-terminals of biologically active peptides such as enkephalins, angiotensins, neurokinins, and cytokines. It exerts profound activity on vital processes such as immune response, cellular growth, and blood pressure control. Inhibition of either APN gene expression or its enzymatic activity severely affects leukocyte growth and function. We show here that oxidoreductase-mediated modulations of the cell surface thiol status affect the enzymatic activity of APN. Additional evidence for the pivotal role of extracellular cysteines in the APN molecule was obtained when substitution of any of these six cysteines caused complete loss of surface expression and enzymatic activity. In contrast, the transmembrane Cys24 appears to have no similar function. Enzymatically inactive cysteine mutants were retained in the endoplasmic reticulum as shown by high-resolution imaging and Endoglycosidase H digestion. In the absence of any crystal-structure data, the demonstration that individual extracellular cysteines contribute to APN expression and function appears to be of particular importance. The data are the first to show thiol-dependent modulation of the activity of a typical surface-bound peptidase at the cell surface, probably reflecting a general regulating mechanism. This may relate to various disease processes such as inflammation or malignant transformation.     

Vibrational modes of tyrosines in cytochrome c oxidase from Paracoccus denitrificans: FTIR and electrochemical studies on Tyr-D4-labeled and on Tyr280His and Tyr35Phe mutant enzymes

A combined electrochemical and FTIR spectroscopic approach was used to identify the vibrational modes of tyrosines in cytochrome c oxidase from Paracoccus denitrificans which change upon electron transfer and coupled proton transfer. Electrochemically induced FTIR difference spectra of the Tyr-D4-labeled cytochrome c oxidase reveal that only small contributions arise from the tyrosines. Contributions between 1600 and 1560 cm(-1) are attributed to nu8a/8b(CC) ring modes. The nu19(CC) ring mode for the protonated form of tyrosines is proposed to absorb with an uncommonly small signal at 1525-1518 cm(-1) and for the deprotonated form at 1496-1486 cm(-1), accompanied by the increase of the nu19(CC) ring mode of the Tyr-D(4)-labeled oxidase at approximately 1434 cm(-1). A signal at 1270 cm(-1) can be tentatively attributed to the nu7'a(CO) and delta(COH) mode of a protonated tyrosine. Uncommon absorptions, like the mode at 1524 cm(-1), indicate the involvement of Tyr280 in the spectra. Tyr280 is a crucial residue close to the binuclear center and is covalently bonded to His276. The possible changes of the spectral properties are discussed together with the absorbance spectra of tyrosine bound to histidine. The vibrational modes of Tyr280 are further analyzed in combination with the mutation to histidine, which is assumed to abolish the covalent bonding. The electrochemically induced FTIR difference spectra of the Tyr280His mutant point to a change in protonation state in the environment of the binuclear center. Together with an observed decrease of a signal at 1736 cm(-1), previously assigned to Glu278, a possible functional coupling is reflected. In direct comparison to the FTIR difference spectra of the D4-labeled compound and comparing the spectra at pH 7 and 4.8, the protonation state of Tyr280 is discussed. Furthermore, a detailed analysis of the mutant is presented, the FTIR spectra of the CO adduct revealing a partial loss of Cu(B). Electrochemical redox titrations reflect a downshift of the heme a3 midpoint potential by 95 +/- 10 mV. Another tyrosine identified to show redox dependent changes upon electron transfer is Tyr35, a residue in the proposed D-pathway of the cytochrome c oxidase.     

Pig complement regulator factor H: molecular cloning and functional characterization

Complement is an efficient defense mechanism of innate immunity. Factor H is the central complement regulator of the alternative pathway, acting in the fluid-phase and on self surfaces. Pigs are considered a suitable source for xenotransplantation and thus several membrane-bound pig complement regulators with importance for the acute rejection phase have been investigated. However, pig fluid-phase regulators have not been described so far. We report the cloning, expression and functional characterization of pig factor H. After constructing a pig liver cDNA library, a full-length factor H cDNA was isolated and sequenced. The predicted protein is organized in 20 short consensus repeat (SCR) domains and has an overall identity of 62% to the human protein. For functional characterization, three deletion constructs of pig factor H were expressed in insect cells. Pig factor H construct SCR 1–4 has cofactor activity for factor I-mediated cleavage of human C3b, which is similar to the human regulator. In addition, this N-terminal construct binds to human C3b, while a construct consisting of SCR 15–20 showed a weaker binding to human C3b/C3d. Pig factor H has two major binding sites for heparin, as the two constructs representing SCR 1–7 and SCR 15–20 proteins, but not the SCR 1–4 protein, bind heparin. The C-terminal construct is able to bind to human endothelial cells, as assayed by FACS. We show that pig and human factor H share functional characteristics in complement regulation and cell surface binding. Possible consequences of using pig livers for xenotransplantation are discussed.The nucleotide sequence data reported are available in the EMBL database (accession number AJ278470)     

Congenic mice: cutting tools for complex immune disorders

Autoimmune diseases are, in general, under complex genetic control and subject to strong interactions between genetics and the environment. Greater knowledge of the underlying genetics will provide immunologists with a framework for study of the immune dysregulation that occurs in such diseases. Ascertaining the number of genes that are involved and their characterization have, however, proven to be difficult. Improved methods of genetic analysis and the availability of a draft sequence of the complete mouse genome have markedly improved the outlook for such research, and they have emphasized the advantages of mice as a model system. In this review, we provide an overview of the genetic analysis of autoimmune diseases and of the crucial role of congenic and consomic mouse strains in such research.