Antibodies to alpha5beta1 and alpha(v)beta3 integrins react with Candida albicans alcohol dehydrogenase.

It has been hypothesized that Candida albicans possesses integrin-like receptors on its cell surface. This is because C. albicans binds numerous fluid-phase extracellular matrix (ECM) proteins on its cell surface and adheres to the same ECM proteins when immobilized. In addition, numerous antibodies to human integrins (receptors for ECM proteins) bind to the fungal cell surface and in so doing inhibit the binding of the respective proteins. To demonstrate the presence of such a cell surface integrin, a cDNA library of C. albicans yeast cells was screened with polyclonal antiserum to the human fibronectin receptor (alpha5beta1 integrin). Clones isolated by this screening technique also reacted specifically to antiserum against the human vitronectin receptor (alpha(v)beta3 integrin). DNA sequence analysis of the cloned insert predicted a 350 aa protein (37 kDa). This predicted protein showed 75% homology at the nucleotide sequence level to alcohol dehydrogenase (ADH) of Saccharomyces cerevisiae. In vitro transcription/translation of the cloned inserts yielded a 37 kDa protein that was immunoprecipitated with antibodies to the alpha5beta1 and alpha(v)beta3 integrins and an antibody to a C. albicans fibronectin receptor. These antibodies and an mAb to the human vitronectin receptor demonstrated an antigen of -37 kDa present in the cell-wall preparations of C. albicans and in spent growth medium. All four antibodies reacted with authentic ADH. The possible significance of these results in relation to C. albicans adherence is discussed.

Structural requirements for hemoglobin to induce fibronectin receptor expression in Candida albicans.

Hemoglobin (Hb) is a host factor that induces expression of a promiscuous receptor on Candida albicans for fibronectin (FN) and several other extracellular matrix proteins. FN receptor expression was induced by ferric (Hb(+)Met and Hb(+)CN), ferrous (HbCO and HbO(2)), and cobalt-protoporphyrin derivatives of Hb, whereas globin was inactive. The Hb derivatives all exhibited saturable, dose-dependent kinetics of FN receptor induction, suggesting that Hb may be acting as a receptor ligand. Soluble Hb bound saturably to a low-affinity binding site [K(d) = (1.1+/-0.2) x 10(-6) M] on C. albicans blastospores. However, uptake of (55)FeHb revealed that heme or iron transport into the cell is not required for induction, since internalization of (55)Fe from Hb did not occur until after induction of FN binding. The serum Hb-binding protein, haptoglobin, specifically abrogated this response, indicating that protein structure rather than the heme ligand or iron is necessary for induction of this signaling pathway. C. albicans also adhered to immobilized Hb, which was sufficient to induce FN receptor expression, and to Hb polymers that formed in defined Hb liquid media in the presence of cells. Formation of Hb polymers in solution required metabolic energy, since the aggregation process was halted with azide addition. Collectively, these data demonstrate that C. albicans recognizes polymerized Hb through multivalent low-affinity interactions, and this may be a host environmental cue that triggers extracellular matrix receptor expression at a septic site.

Sequence and genetic analysis of the hemin storage (hms) system of Yersinia pestis.

We have sequenced a region from the pigmentation (pgm) locus of Yersinia pestis KIM6+ that is identified with the exogenous hemin storage (Hms+) phenotype in cells grown at 26 but not at 37 degrees C. The hmsHFRS locus encodes a putative polycistronic operon, with hmsH encoding an outer membrane protein with a deduced molecular mass of 93.4/89.5 (unprocessed/processed) kDa. The mature HmsH 788 aa polypeptide has a pI of 4.99. The hmsF gene has an open reading frame of 654 aa, encoding a 74.6/72.2 kDa OM protein with a pI of 5.16 when processed. A deduced 423 aa, 52 kDa protein with a pI of 10.83 is encoded by hmsR. HmsR has a basic, hydrophilic, and alpha-helical carboxyl terminus; 13 aa at the amino-terminal end and a 'KRKRAR' sequence at the carboxy-terminal end are essential for an Hms+ phenotype. The hmsS gene encodes a hypothetical 155 aa, 17.5 kDa protein with a pI of 6.68. Hms- Y. pestis strain M23-2 transformed with the cloned hmsHFRS locus developed an Hms(c) phenotype (Hms+ at 26-37 degrees C) due to mutations in genes outside the pgm locus.

Adherence of Candida albicans to host cells.

Research devoted to uncovering the mechanisms of adherence of Candida albicans to human tissue is reviewed. The physical aspects of adherence of the fungus to host cells and the biochemical and molecular features, as far as they are known, are discussed. Relevant pre- and post-adherence events in the pathogenesis of disease caused by this fungus are also noted. Putative adhesins and surface receptors of C. albicans for host proteins are discussed in detail.

Proteins essential for expression of the Hms+ phenotype of Yersinia pestis.

One characteristic of pigmented (Pgm+) cells of Yersinia pestis is the adsorption of sufficient quantities of exogenous haemin during growth at 26 degrees C to form dark-brown colonies. Carriage of the cloned haemin-storage (hms) locus in pHMS1 restores this phenotype to spontaneous Pgm- chromosomal deletion mutants of Y. pestis. We have mapped the location of the structural genes for four proteins encoded on pHMS1 using minicell, in vitro transcription/translation, and complementation analysis. The hmsH and hmsF genes encode 90 kDa and 72 kDa protein precursors processed to surface-exposed, outer membrane proteins of 86 kDa and 70 kDa, respectively. Beta-galactosidase positive MudII1734 insertions in hmsR suggest that it encodes a protein that is also essential for haemin storage. Finally, the structural gene for a 41 kDa protein lies distal to the hmsH gene but, unlike hmsH, hmsF, and hmsR, its expression is not essential for the Hms+ phenotype in Y. pestis.

Characterization of a hemin-storage locus of Yersinia pestis.

The pigmentation phenotype (Pgm+) of Yersinia pestis refers to temperature-dependent storage of hemin as well as expression of a number of other physiological characteristics. Spontaneous mutation to a Pgm- phenotype occurs via a large chromosomal deletion event and results in the inability to express the Pgm+ characteristics. In this study, we have used transposon insertion mutants to define two regions of a hemin-storage (hms) locus. A clone (pHMS1) encompassing this locus reinstates expression of hemin storage (Hms+) in Y. pestis spontaneous Pgm- strains KIM and Kuma but not in Escherichia coli. Complementation analysis using subclones of pHMS1 in Y. pestis transposon mutants indicates that both regions (hmsA and hmsB), which are separated by about 4 kb of intervening DNA, are essential for expression of the Hms+ phenotype. The 9.1-kb insert of pHMS1 contains structural genes encoding 90-kDa, 72-kDa, and 37-kDa polypeptides. Two-dimensional gel electrophoresis analysis of cells from Pgm+, spontaneous Pgm-, and Hms- transposon strains, as well as a spontaneous Pgm- strain transformed with pHMS1, indicated that two families of surface-exposed polypeptides (of about 87 and 69-73 kDa) are associated with the Hms+ phenotype.

Identification and cloning of a hemin storage locus involved in the pigmentation phenotype of Yersinia pestis.

The temperature-dependent absorption of sufficient exogenous hemin or Congo red to form pigmented colonies of Yersinia pestis has been termed the pigmentation phenotype (Pgm+). Spontaneous mutation to a Pgm- phenotype results in the loss of a number of divergent physiological characteristics, including the ability to store hemin and to bind Congo red at 26 degrees C. In this study, we generated and isolated transposon insertion mutants that are hemin storage negative (Hms-) and therefore unable to form pigmented colonies. These mutations are due to single mini-kan insertions within a 19.5-kilobase (kb) SalI fragment of chromosomal DNA. Restriction site analysis of eight mutants identified a minimum of six potentially different insertion sites spanning an approximately 10-kb hemin storage (hms) locus. The 19.5-kb SalI fragment (containing approximately 18 kb of Y. pestis DNA and the mini-kan insert) was cloned from one of these mutants, KIM6-2012. By using this cloned fragment as a DNA probe, the mechanism of spontaneous mutation to a Pgm- phenotype was identified as a massive deletion event. The deletion spans at least 18 kb of genomic DNA in spontaneous Pgm- mutants from nine separate strains of Y. pestis. DNA adjacent to the mini-kan insert was used to identify a clone containing a wild-type hms locus. A spontaneous Pgm- mutant of Y pestis KIM containing this clone exhibits an Hms+ phenotype. The hms::mini-kan mutations and cloned wild-type hms locus generated in this study will greatly aid in identifying the function of hemin storage in Y. pestis.

Metabolism of 25-hydroxyvitamin D in copper-laden rat: a model of Wilson's disease.

Wilson's disease results in excess tissue accumulation of copper and is often complicated by skeletal and mineral abnormalities. We investigated vitamin D metabolism in rats fed a copper-laden diet rendering hepatic copper content comparable with that found in Wilson's disease. Injection of 25-hydroxyvitamin D3 [25(OH)D3] resulted in reduced 1,25-dihydroxyvitamin D [1,25(OH)2D] levels in copper-intoxicated rats. In vitro 25(OH)D-1 alpha-hydroxylase activity was impaired in renal mitochondria from copper-intoxicated animals. Activity was also inhibited in mitochondria from controls when copper was added to incubation media. Impaired conversion of 25(OH)D to 1,25(OH)2D occurs in copper intoxication and suggests that altered vitamin D metabolism is a potential factor in the development of bone and mineral abnormalities in Wilson's disease.