Lineage-specific alternative splicing of the human Fc gamma RIIA transmembrane exon requires sequences near the 3' splice site

The human Fc gamma RIIA gene produces multiple transcripts, including those with (Fc gamma RIIa1) and without (Fc gamma RIIa2) the single exon encoding the transmembrane domain (TM). Previously, a fluorescence-based RT-PCR assay showed lineage-specific differences in Fc gamma RIIA transcript ratios (Fc gamma RIIa2/Fc gamma RIIa1). The mechanism of this lineage-specific expression was investigated in this study. Differential transcript stability does not play a major role, because transcript ratios remained constant in cells with both low (K562) and high (Dami) ratios following actinomycin D treatment. Transient expression studies in K562 and Dami cells using a minigene construct containing a 5.0 kb genomic fragment including the TM exon and adjacent intron and exon sequences showed recapitulation of endogenous transcript ratios. The TM exon was efficiently spliced in by the constitutive splicing machinery in HeLa cells, an Fc gamma RIIA-negative cell line. Lineage-specific TM exon skipping was markedly diminished by two independent minigene mutations: a point mutation of the first nucleotide of the TM exon, and a five basepair intronic deletion near a putative branchpoint. These data demonstrate that cis-acting sequences in or near the TM exon 3' splice acceptor site contribute to lineage-specific differences in Fc gamma RIIA transcript ratios.

Identification of FVIII gene mutations in patients with hemophilia A using new combinatorial sequencing by hybridization

BACKGROUND:

Standard methods of mutation detection are time consuming in Hemophilia A (HA) rendering their application unavailable in some analysis such as prenatal diagnosis.

OBJECTIVES:

To evaluate the feasibility of combinatorial sequencing-by-hybridization (cSBH) as an alternative and reliable tool for mutation detection in FVIII gene.

PATIENTS/METHODS:

We have applied a new method of cSBH that uses two different colors for detection of multiple point mutations in the FVIII gene. The 26 exons encompassing the HA gene were analyzed in 7 newly diagnosed Italian patients and in 19 previously characterized individuals with FVIII deficiency.

RESULTS:

Data show that, when solution-phase TAMRA and QUASAR labeled 5-mer oligonucleotide sets mixed with unlabeled target PCR templates are co-hybridized in the presence of DNA ligase to universal 6-mer oligonucleotide probe-based arrays, a number of mutations can be successfully detected. The technique was reliable also in identifying a mutant FVIII allele in an obligate heterozygote. A novel missense mutation (Leu1843Thr) in exon 16 and three novel neutral polymorphisms are presented with an updated protocol for 2-color cSBH.

CONCLUSIONS:

cSBH is a reliable tool for mutation detection in FVIII gene and may represent a complementary method for the genetic screening of HA patients.

Heterozygous disruption of Flk-1 receptor leads to myocardial ischaemia reperfusion injury in mice: application of affymetrix gene chip analysis

This study addresses an important clinical issue by identifying potential candidates of vascular endothelial growth factor (VEGF) signalling through the Flk-1 receptor that trigger cardioprotective signals under ischaemic stress. Isolated working mouse hearts of both wild-type (WT) and Flk-1^+/− were subjected to global ischaemia (I) for 30 min. followed by 2 hrs of reperfusion (R). Flk-1^+/− myocardium displayed almost 50% reduction in Flk-1 mRNA as examined by quantitative real-time RT-PCR at the baseline level. Flk-1^+/− mouse hearts displayed reduction in left ventricular functional recovery throughout reperfusion (dp/dt 605 versus 884), after 2 hrs (P < 0.05). Coronary (1.9 versus 2.4 ml) and aortic flow (AF) (0.16 versus 1.2 ml) were reduced in Flk-1^+/− after 2 hrs of reperfusion. In addition, increased infarct size (38.4%versus 28.41%, P < 0.05) and apoptotic cardiomyocytes (495 versus 213) were observed in Flk-1^+/− knockout (KO) mice. We also examined whether ischaemic preconditioning (PC), a novel method to induce cardioprotection against ischaemia reperfusion injury, through stimulating the VEGF signalling pathway might function in Flk-1^+/− mice. We found that knocking down Flk-1 resulted in significant reduction in the cardioprotective effect by PC compared to WT. Affymetrix gene chip analysis demonstrated down-regulation of important genes after IR and preconditioning followed by ischaemia reperfusion in Flk-1^+/− mice compared to WT. To get insight into the underlying molecular pathways involved in ischaemic PC, we determined the distinct and overlapping biological processes using Ingenuity pathway analysis tool. Independent evidence at the mRNA level supporting the Affymetrix results were validated using real-time RT-PCR for selected down-regulated genes, which are thought to play important roles in cardioprotection after ischaemic insult. In summary, our data indicated for the first time that ischaemic PC modifies genomic responses in heterozygous VEGFR-2/Flk-1 KO mice and abolishes its cardioprotective effect on ischaemic myocardium.

Transcriptional regulatory network analysis of developing human erythroid progenitors reveals patterns of coregulation and potential transcriptional regulators

Deciphering the molecular basis for human erythropoiesis should yield information benefiting studies of the hemoglobinopathies and other erythroid disorders. We used an in vitro erythroid differentiation system to study the developing red blood cell transcriptome derived from adult CD34+ hematopoietic progenitor cells. mRNA expression profiling was used to characterize developing erythroid cells at six time points during differentiation (days 1, 3, 5, 7, 9, and 11). Eleven thousand seven hundred sixty-three genes (20,963 Affymetrix probe sets) were expressed on day 1, and 1,504 genes, represented by 1,953 probe sets, were differentially expressed (DE) with 537 upregulated and 969 downregulated. A subset of the DE genes was validated using real-time RT-PCR. The DE probe sets were subjected to a cluster metric and could be divided into two, three, four, five, or six clusters of genes with different expression patterns in each cluster. Genes in these clusters were examined for shared transcription factor binding sites (TFBS) in their promoters by comparing enrichment of each TFBS relative to a reference set using transcriptional regulatory network analysis. The sets of TFBS enriched in genes up- and downregulated during erythropoiesis were distinct. This analysis identified transcriptional regulators critical to erythroid development, factors recently found to play a role, as well as a new list of potential candidates, including Evi-1, a potential silencer of genes upregulated during erythropoiesis. Thus this transcriptional regulatory network analysis has yielded a focused set of factors and their target genes whose role in differentiation of the hematopoietic stem cell into distinct blood cell lineages can be elucidated.

Association of T-786C eNOS gene polymorphism with increased susceptibility to acute chest syndrome in females with sickle cell disease

Acute chest syndrome (ACS) is a life-threatening complication of sickle cell disease (SCD). A retrospective study was performed to evaluate the role of endothelial nitric oxide synthase (eNOS) gene polymorphisms (E298D and T-786C) in African-American SCD patients. The D298 allele showed no association; the C-786 allele showed a statistically significant association (P = 0.0061) in female ACS cases. Multiple logistic regression analysis showed that relative risk of ACS was 8.695 (P = 0.0076, 95% confidence interval 1.761-42.920) for female carriers of C-786. eNOS T-786C is a gender-specific genetic modifier that is associated with increased susceptibility to ACS in female SCD patients.

Four-laser scanning confocal system for microarray analysis

We have constructed a confocal scanner suitable for routine microarray analysis from commercially available parts. We have outlined the details that should be considered when designing such an instrument and listed some of the specific components comprising the system [the full list of system components is available on CD from the corresponding author (D.J.G.) at no charge]. Here, we describe the methods used to test the linearity and sensitivity of the instrument. Performance was evaluated with two commonly used dyes, fluorescein and Cy5. While the instrument had a linear correlation between the dye concentration and fluorescence intensity, the observed deviation from a slope of 1.0 underscores the importance of running multipoint calibration experiments to obtain accurate dye quantitation over the full dynamic range of the scanner. This method has utility in testing commercial instruments in addition to the scanner described here. An array with over 300 spots dyed with Cy3 was scanned with our instrument and a high-end commercial instrument. The agreement between the two instruments was very good over a 1000-fold intensity range. Our scanner is a cost-effective alternative to more costly commercial scanners with similar capabilities.

GATA and NF-Y participate in transcriptional regulation of FcgammaRIIA in megakaryocytic cells

Human FcgammaRIIA, expressed on platelets, neutrophils, and macrophages, plays a major role in platelet activation and immune clearance. Clinical observations indicate that regulation of expression of this receptor is an important factor influencing the course of immune thrombocytopenia. We used both transient transfection with FcgammaRIIA promoter constructs and electrophoretic mobility shift assays (EMSA) to study the regulation of FcgammaRIIA transcription. In HEL (erythromegakaryocytic) cells, the 200 bp immediately 5' of the ATG start codon accounted for the majority of the activity of a 3.6-kb promoter fragment. Putative GATA (-161) and NF-Y (-119) sites are present. EMSA analyses demonstrate specific binding of both GATA-1 and GATA-2 to labeled oligonucleotides containing the putative GATA site with HEL but not U937 (myelomonocytic) nuclear extracts. Antibodies to NF-Y supershift the specific -119 NF-Y complex with HEL, U937, Jurkat (T-lymphocytic), and HeLa (nonhematopoietic) nuclear extracts. Comparison of the activity of GATA and NF-Y mutant constructs in HEL and U937 demonstrates that while either GATA or NF-Y mutation results in a large decrease in the promoter activity (2.2- and 2.3-fold, respectively) in HEL cells, neither mutation is effective in reducing activity in U937 cells. This is the first example of a promoter active in the megakaryocyte lineage in which NF-Y cooperates additively with GATA factors to regulate transcription. Identification of other factors that must be operational for FcgammaRIIA transcription in myelomonocytic cells which lack GATA factors will bolster our ongoing efforts to dissect the function of these Fc receptors in megakaryocytic and myelomonocytic cells in vivo.

Simple two-color array-based approach for mutation detection

The ability to analyze multiple polymorphic/mutation sites rapidly and accurately is pivotal in all areas of genetic analysis. We have applied single nucleotide primer extension (SNE) for detection of multiple point mutations in a micro-array format using two-color, fluorescent dye-tagged dideoxynucleoside triphosphate terminators (ddNTPs). The oligonucleotide primer ending one nucleotide short of the mutation site being probed is bound to the slide and single-base extended in place with two different Cy5/Cy3 dye-tagged terminators using solution-phase, locus-specific, single-stranded complementary templates generated by PCR from genomic DNA. The composite fluorescence produced contains peaks of distinct wave lengths corresponding to each Cy dye-tagged terminator incorporated, resulting in a fluorescent 'fingerprint' for each DNA target. DNA polymerase-catalyzed incorporation of Cy dye-tagged dideoxynucleoside triphosphates was dependent on the particular dyes, the specific ddNTP, the DNA target concentration, sequence of the template, on-slide temperature cycling and washing conditions. Results from analysis of mutations in the human hemochromatosis and connexin 26 genes show that this approach has several advantages over existing methods and is simple, rapid, robust, cost effective and accurate with potential applications in many areas of genetic analysis.

Expression of functional soluble human alpha-globin chains of hemoglobin in bacteria

Individual, soluble human alpha-globin chains were expressed in bacteria with exogenous heme and methionine aminopeptidase. The yields of soluble alpha chains in bacteria were comparable to those of recombinant non-alpha chains expressed under the same conditions. Molecular mass and gel-filtration properties of purified recombinant alpha chains were the same as those of authentic human alpha chains. Biochemical and biophysical properties of isolated alpha chains were identical to those of native human alpha chains as assessed by UV/vis, circular dichroism (CD), and nuclear magnetic resonance (NMR) spectroscopy which contrasts with previous results of refolded precipitated alpha chains made in the presence of heme in vitro (M. T. Sanna et al., J. Biol. Chem. 272, 3478-3486, 1997). Mixtures of purified, soluble recombinant alpha-globin and native beta-globin chains formed heterotetramers in vitro, and oxygen- and CO-binding properties as well as the heme environment of the assembled tetramers were experimentally indistinguishable from those of native human Hb A. UV/vis, CD, and NMR spectra of assembled Hb A were also the same as those of human Hb A. These results indicate that individual expressed alpha chains are stable in bacteria and fold properly in vivo and that they then can assemble with free beta chains to form hemoglobin heterotetramers in vivo as well as in vitro.

Generation of patterns from gene expression data by assigning confidence to differentially expressed genes

MOTIVATION

A protocol is described to attach expression patterns to genes represented in a collection of hybridization array experiments. Discrete values are used to provide an easily interpretable description of differential expression. Binning cutoffs for each sample type are chosen automatically, depending on the desired false-positive rate for the predictions of differential expression. Confidence levels are derived for the statement that changes in observed levels represent true changes in expression. We have a novel method for calculating this confidence, which gives better results than the standard methods. Our method reflects the broader change of focus in the field from studying a few genes with many replicates to studying many (possibly thousands) of genes simultaneously, but with relatively few replicates. Our approach differs from standard methods in that it exploits the fact that there are many genes on the arrays. These are used to estimate for each sample type an appropriate distribution that is employed to control the false-positive rate of the predictions made. Satisfactory results can be obtained using this method with as few as two replicates.

RESULTS

The method is illustrated through applications to macroarray and microarray datasets. The first is an erythroid development dataset that we have generated using nylon filter arrays. Clones for genes whose expression is known in these cells were assigned expression patterns which are in accordance with what was expected and which are not picked up by the standards methods. Moreover, genes differentially expressed between normal and leukemic cells were identified. These included genes whose expression was altered upon induction of the leukemic cells to differentiate. The second application is to the microarray data by Alizadeh et al. (2000). Our results are in accordance with their major findings and offer confidence measures for the predictions made. They also provide new insights for further analysis.

Assembly of gamma- with alpha-globin chains to form human fetal hemoglobin in vitro and in vivo

Soluble gamma-globin chains were expressed in bacteria and purified to assess the mechanism of gamma- and alpha-chain assembly to form Hb F. Formation of Hb F in vitro following incubation of equimolar mixtures of gamma and alpha chains was about 4 x 10(5)-fold slower than assembly of alpha and beta chains to form Hb A in vitro. Results of assembly for gamma(116Ile-->His) and gamma(112Thr-->Asp) chains with alpha chains were similar to that of beta chains, whereas assembly of gamma(112Thr-->Cys) and alpha chains was similar to wild type gamma chains, indicating that amino acid differences at alpha1beta1 and alpha1gamma1 interaction sites between gamma116 Ile and beta116 His are responsible for the different assembly rates in vitro in the formation of Hb F and Hb A. Homoassembly in vitro of individual gamma chains as assessed by size-exclusion chromatography shows that gamma and gamma(112Thr-->Cys) chains form stable dimers like alphabeta and alphagamma that do not dissociate readily into monomers like beta chains. In contrast, gamma(116Ile-->His) chains form monomers and dimers upon dilution. These results are consistent with the slower assembly rate in vitro of gamma and gamma(112Thr-->Cys) with alpha chains, whereas the faster rate of assembly of gamma(116Ile-->His) and gamma(112Thr-->Asp) chains with alpha chains, like beta chains, may be caused by dissociation to monomers. These results suggest that dissociation of gamma(2) dimers to monomers limits formation of Hb F in vitro. However, yields of soluble Hb F expressed in bacteria were similar to Hb A, and no unassembled alpha and gamma chains were detected. These results indicate that gamma chains assemble in vivo with alpha chains prior to forming stable gamma(2) dimers, possibly binding to alpha chains as partially folded nascent gamma-globin chains prior to release from polyribosomes.

The role of the human Fc receptor Fc gamma RIIA in the immune clearance of platelets: a transgenic mouse model

In humans, the Fc receptor for IgG, FcgammaRIIA, is expressed on macrophages and platelets and may play an important role in the pathophysiology of immune-mediated thrombocytopenia. Mice lack the genetic equivalent of human FcgammaRIIA. To better understand the role of FcgammaRIIA in vivo, FcgammaRIIA transgenic mice were generated and characterized. One transgenic mouse line expressed FcgammaRIIA on platelets and macrophages at levels equivalent to human cells, and cross-linking FcgammaRIIA on these platelets induced platelet aggregation. Immune-mediated thrombocytopenia in this transgenic line was studied using i.v. and i.p. administration of anti-mouse platelet Ab. In comparison with matched wild-type littermates that are negative for the FcgammaRIIA transgene, Ab-mediated thrombocytopenia was significantly more severe in the FcgammaRIIA transgenic mice. In contrast, FcR gamma-chain knockout mice that lack functional expression of the Fc receptors FcgammaRI and FcgammaRIII on splenic macrophages did not demonstrate Ab-mediated thrombocytopenia. We generated FcgammaRIIA transgenic x FcR gamma-chain knockout mice to examine the role of FcgammaRIIA in immune clearance in the absence of functional FcgammaRI and FcgammaRIII. In FcgammaRIIA transgenic x FcR gamma-chain knockout mice, severe immune thrombocytopenia mediated by FcgammaRIIA was observed. These results demonstrate that FcgammaRIIA does not require the FcR gamma-chain for expression or function in vivo. Furthermore, taken together, the data suggest that the human Fc receptor FcgammaRIIA plays a significant role in the immune clearance of platelets in vivo.

System for preparing microhybridization arrays on glass slides

We describe the construction and operation of an arrayer system to produce patterns of DNA sequences for analytical uses such as microarrays of oligonucleotide on microchips. Detailed documentation on construction is provided, as well as added electronic circuitry and the software for the instrument, including programs to machine its own working surface as well as those to operate it as an arrayer. Its cost is modest, and with a single droplet tip it can deposit 96 spots per slide on 32 slides in about 200 min (readily upgraded to higher speeds). As currently operated, it can place 400 spots in 1 cm2, and this density, too, can be increased easily. We discuss design features and performance to demonstrate utility and flexibility.

Parallel molecular genetic analysis

We describe recent progress in parallel molecular genetic analyses using DNA microarrays, gel-based systems, and capillary electrophoresis and utilization of these approaches in a variety of molecular biology assays. These applications include use of polymorphic markers for mapping of genes and disease-associated loci and carrier detection for genetic diseases. Application of these technologies in molecular diagnostics as well as fluorescent technologies in DNA analysis using immobilized oligonucleotide arrays on silicon or glass microchips are discussed. The array-based assays include sequencing by hybridization, cDNA expression profiling, comparative genome hybridization and genetic linkage analysis. Developments in non microarray-based, parallel analyses of mutations and gene expression profiles are reviewed. The promise of and recent progress in capillary array electrophoresis for parallel DNA sequence analysis and genotyping is summarized. Finally, a framework for decision making in selecting available technology options for specific molecular genetic analyses is presented.

Role of beta112 Cys (G14) in homo- (beta4) and hetero- (alpha2 beta2) tetramer hemoglobin formation

In order to assess the role of beta112 Cys in homo- and hetero-tetrameric hemoglobin formation, we expressed four beta112 variants (beta112Cys-->Asp, beta112Cys-->Ser, beta112Cys-->Thr, and beta112Cys-->Val) and studied assembly with alpha chains in vitro. beta112 Cys is normally present at beta1 beta2 and alpha1 beta1 interaction sites in homo- (beta4) and hetero-tetramers (alpha2 beta2). beta4 formation in vitro was influenced by the amino acid at beta112. beta112 Asp completely inhibited formation of homo-tetramers, whereas beta112 Ser showed only slight inhibition. In contrast, beta112 Thr or Val enhanced homo-tetramer formation compared with betaA chains. Association constants for homo-tetramer formation increased in the order of beta112Cys-->Ser, betaA, beta112Cys-->Thr, and beta112Cys-->Val, whereas the value for beta112Cys-->Asp was zero under the same conditions. These beta112 changes also affected in vitro alpha2 beta2 hetero-tetramer formation. Order of alpha2 beta2 formation under limiting alpha-globin chain conditions showed Hb betaC112S > Hb A > Hb S = Hb betaC112T = Hb betaC112V >>> Hb betaC112D. Hb beta112D can form tetrameric hemoglobin, but this beta112 change promotes dissociation into alpha and beta chains instead of alpha beta dimer formation upon dilution. These results indicate that amino acids at alpha1 beta1 interaction sites such as beta112 on the G helix play a key role in stable alpha beta dimer formation. Our findings suggest, in addition to electrostatic interaction between alpha and beta chains, that dissociation of beta4 homo-tetramers to monomers and hydrophobic interactions of the beta112 amino acid with alpha chains governs stable alpha1 beta1 interactions, which then results in formation of functional hemoglobin tetramers. Information gained from these studies should increase our understanding of the mechanism of assembly of multi-subunit proteins.

-245 bp of 5'-flanking region from the human platelet factor 4 gene is sufficient to drive megakaryocyte-specific expression in vivo

Platelet factor 4 (PF4) serves as a lineage-specific marker of megakaryocyte development. We previously identified two positively acting sequences in the human platelet factor 4 (hPF4) gene promoter that synergized to drive high-level luciferase reporter gene expression in vitro. Using portions of the hPF4 5'-flanking region linked to the lacZ reporter gene, we observed in this investigation that constructs with -245 bp of 5'-flanking region were more active than constructs with -2 kb of 5'-flanking region in vitro. We created two independent transgenic mouse lines with a -245-bp hPF4/lacZ construct. Cells from these mice were tested for beta-galactosidase (beta-gal) expression at the mRNA level by Northern blot and semiquantitative reverse transcription polymerase chain reaction (RT-PCR) and at the protein level by immunohistochemistry assay. Mice from one line showed beta-gal expression specifically in all megakaryocytes of all ploidy classes from bone marrow and in platelets. Expression level was comparable to that driven by the 1.1-kb rat PF4 promoter in other transgenic mouse lines. Those in the second line showed no beta-gal expression in megakaryocytes, platelets, or any of the eight organs tested. The -245-bp hPF4 promoter is capable of driving reporter gene expression in a megakaryocyte-specific manner in transgenic mice. The small size of this megakaryocyte-specific promoter is compatible with that required in some viral vectors and may provide a model for targeting gene expression to megakaryocytes.

Effects of increased anionic charge in the beta-globin chain on assembly of hemoglobin in vitro

Studies on assembly in vitro of alpha-globin chains with recombinant beta16 Gly-->Asp, beta95 Lys-->Glu, beta120 Lys-->Glu and beta16 Gly-->Asp, 120 Lys-->Glu human beta-globin chain variants in addition to human betaA- and betaS-globin chains were performed to evaluate effects of increased anionic charge in the beta chain on hemoglobin assembly using soluble recombinant beta-globin chains expressed in bacteria. A beta112 Cys-->Asp change was also engineered to monitor effects on assembly of increased negative charge at alpha1beta1 interaction sites. Order of tetramer formation in vitro under limiting alpha-globin chain conditions showed Hb betaG16D, K120E = Hb betaK120E = Hb betaK95E > Hb betaG16D > Hb A > Hb S >>> Hb betaC112D. In addition, beta112 Cys-->Asp chains exist as monomers rather than beta4 tetramers in the absence of alpha chains, and the beta chain in Hb betaC112D tetramers was readily exchanged by addition of betas. These results suggest that affinity between alpha and beta chains is promoted by negatively-charged beta chains up to a maximum of two additional net negative charges and is independent of location on the surface except at the alpha1beta1 interaction site. In addition, our findings show that beta112 Cys on the G helix is critical for facilitating formation of stable alphabeta dimers, which then form functional hemoglobin tetramers, and that beta112 Cys-->Asp inhibits formation of stable alpha1beta1 and beta1beta2 interactions in alpha2beta2 and beta4 tetramers, respectively.

Connexin-26 mutations in sporadic and inherited sensorineural deafness

BACKGROUND

Hearing impairment affects one infant in 1000 and 4% of people aged younger than 45 years. Congenital deafness is inherited or apparently sporadic. We have shown previously that DFNB1 on chromosome 13 is a major locus for recessive deafness in about 80% of Mediterranean families and that the connexin-26 gene gap junction protein beta2 (GJB2) is mutated in DFNB1 families. We investigated mutations in the GJB2 gene in familial and sporadic cases of deafness.

METHODS

We obtained DNA samples from 82 families from Italy and Spain with recessive non-syndromic deafness and from 54 unrelated participants with apparently sporadic congenital deafness. We analysed the coding region of the GJB2 gene for mutations. We also tested 280 unrelated people from the general populations of Italy and Spain for the frameshift mutation 35delG.

FINDINGS

49% of participants with recessive deafness and 37% of sporadic cases had mutations in the GJB2 gene. The 35delG mutation accounted for 85% of GJB2 mutations, six other mutations accounted for 6% of alleles, and no changes in the coding region of GJB2 were detected in 9% of DFNB1 alleles. The carrier frequency of mutation 35delG among people from the general population was one in 31 (95% CI one in 19 to one in 87).

INTERPRETATION

Mutations in the GJB2 gene are a major cause of inherited and apparently sporadic congenital deafness. Mutation 35delG is the most common mutation for sensorineural deafness. Identification of 35delG and other mutations in the GJB2 gene should facilitate diagnosis and counselling for the most common genetic form of deafness.

A naturally occurring mutation in Fc gamma RIIA: a Q to K127 change confers unique IgG binding properties to the R131 allelic form of the receptor

Fc gamma RIIa is widely expressed on hematopoietic cells. There are two known allelic polymorphic forms of Fc gamma RIIa, Fc gamma RIIa-R131 and Fc gamma RIIa-H131, which differ in the amino acid at position 131 in the second lg-like domain. In contrast to Fc gamma RIIa-R131, Fc gamma RIIa-H131 binds hlgG2 but not mIgG1, and this differential binding has clinical implications for host defense, autoimmune disease, immunohematologic disease, and response to therapeutic monoclonal antibodies. We identified a novel Fc gamma RIIA genotype in a healthy individual homozygous for Fc gamma RIIA R/R131 in whom a C to A substitution at codon 127 changes glutamine (Q) to lysine (K) in one of the two Fc gamma RIIA genes. This individual's homozygosity for Fc gamma RIIA-R/R131 leads to the prediction that the receptors on her cells would not bind hIgG2. Monocyte and neutrophil phagocytosis of hIgG2-opsonized erythrocytes was significantly higher (P < .05) for cells from this K/Q127, R/R131 individual than for Q/Q127, R/R131 donors. Platelet aggregation stimulated by an mIgG1 anti-CD9 antibody in this individual was significantly different (P < .05) from Q/Q127, H/R131 and Q/Q127, H/H131 donors and similar to Q/Q127, R/R131. Our data show that the K127/R131 receptors have a unique phenotype, binding both hIgG2 and mIgG1. Further functionally significant mutations in human Fc gamma receptors and possible novel mechanisms for inherited differences in disease susceptibility should be sought with unbiased screening methods.

Role of beta87 Thr in the beta6 Val acceptor site during deoxy Hb S polymerization

Three new Hb S variants containing beta87 Leu, Trp, or Asp instead of Thr were expressed in yeast in order to further define the role of the beta87 position in stability and polymerization of deoxy Hb S. Previous studies showed that hydrophobicity at beta85 Phe and beta88 Leu is critical for stabilization of hemoglobin. Results with the three Hb S beta87 variants, however, showed minimal differences in stability, suggesting that beta87 amino acid hydrophobicity is not critical for stabilization of hemoglobin. Polymerization properties of the variants in the deoxy form, however, were affected by the beta87 amino acid. Polymerization of Hb S beta87 Thr --> Leu and Hb S beta87 Thr --> Trp was preceded by a delay time like Hb S, while Hb S beta87 Thr --> Asp did not show a delay time. In addition, changes in time required for half polymer formation (T1/2) as a function of hemoglobin concentration for Hb S beta87 Thr --> Asp were similar to that for beta87 Thr --> Gln. Hb S beta87 Thr --> Leu polymerized at a lower hemoglobin concentration than Hb S while beta87 Thr --> Trp and Hb S beta87 Thr --> Asp required much higher hemoglobin concentrations for polymer formation. Critical concentration required for deoxy Hb S beta87 Thr --> Asp polymerization was 6- and 2.3-fold greater than that for Hb S beta85 Phe --> Glu and Hb S beta88 Leu --> Glu, respectively. These results suggest that even though beta87 Thr is not a direct interaction site for beta6 Val in deoxy Hb S polymers, it does play a critical role in formation of the hydrophobic acceptor pocket which then promotes protein-protein interactions facilitating formation of stable nuclei and polymers of deoxy Hb S.

Amino acids responsible for decreased 2,3-biphosphoglycerate binding to fetal hemoglobin

To clarify the role of gammaN-terminal Gly, gamma5 Glu, and gamma143 Ser in 2,3-biphosphosphoglycerate (BPG) binding to fetal hemoglobin (Hb F), we engineered and produced normal human Hb F and two Hb F variants (Hb F gammaG1V, gammaS143H, and Hb F gammaG1V, gammaE5P, gammaS143H) using a yeast expression system and then compared their oxygen-binding properties with those of native human Hb F and adult Hb (Hb A). Oxygen affinity of Hb F gammaG1V, gammaS143H in the absence of 2,3-BPG was slightly higher than that of normal Hb F. The decrease in oxygen affinities for Hb F gammaG1V, gammaS143H with increasing 2,3-BPG concentrations was larger than that of normal Hb F, but significantly less than that of Hb A. In contrast, oxygen affinities of Hb F gammaG1V, gammaE5P, gammaS143H in the absence and presence of 2,3-BPG were much lower than those of Hb F gammaG1V, gammaS143H and were similar to those of Hb A. These results indicate that differences between Pro and Glu at the A2 position in the A helix in Hb A and Hb F, respectively, are critical for reduced binding of 2,3-BPG to Hb F, even though beta5 Pro does not interact directly with 2,3-BPG in Hb A. Hb F variants such as Hb F gammaG1V, gammaE5P, gammaS143H, which exhibit reduced oxygen affinity, should facilitate design of efficient antisickling fetal Hb variants for potential use in gene therapy for sickle cell disease.

Rapid sizing of polymorphic microsatellite markers by capillary array electrophoresis

Genetic mapping and DNA sequencing projects could potentially be completed more rapidly by using capillary array electrophoresis (CAE) systems running 48-96 capillaries simultaneously. Currently, multiplex polymerase chain reaction (PCR) and multicolor fluorescent dye-labeling strategies are used to generate DNA profiles containing 18-24 genotypes per sample. By using 4-color fluorescence detection and these multiplex PCR strategies, a CAE system has the capacity to generate up to 5.5 million genotypes per year. CAE offers extremely fast, high-resolution separation of DNA and more automated sample processing than conventional systems because the labor-intensive slab-gel pouring and sample-loading steps are eliminated. We used a prototype CAE system in an ongoing linkage analysis study of inherited deafness in Mediterranean families. CA-repeat markers linked to deafness susceptibility genes on chromosomes 7, 11 and 13 were analyzed and DNA profiles generated which contain 6 markers per color. Fragment sizes of over 28,000 short tandem repeat alleles and 3200 CA-repeat alleles have been determined by CAE. An average sizing precision of +/- 0.12 base pairs (bp) for fragments up to 350 bp was realized in 1-h runs. In addition, a versatile non-denaturing matrix was used to separate DNA sizing standards, restriction digests, and multiplex PCR samples. Application of this matrix to Duchenne muscular dystrophy exon deletion screening is also described. These CAE approaches should facilitate rapid genotyping of microsatellite markers and subsequent identification of disease-causing mutations.

Molecular analysis of a compound heterozygote for hypoprothrombinemia and dysprothrombinemia (-G 7248/7249 and ARG 340 TRP)

Hypoprothrombinemia is an uncommon hereditary coagulation defect characterized by low levels of biologically active prothrombin. Automated fluorescence-based DNA sequence analysis of amplified genomic DNA was used to define prothrombin gene regions from a patient with severe functional hypoprothrombinemia and little detectable prothrombin antigen. Two changes that alter amino acid sequence were observed: a deletion of one nucleotide (-G, 7248/7249) in exon 8 of one allele, causing a frameshift at codon 249/250 that results in premature termination of translation; and a C --> T change resulting in the substitution of tryptophan (TGG) for arginine (CGG) at amino acid 340 in exon 10 of the prothrombin gene. Computer modeling of the thrombin molecule confirmed that arginine 340 is located at the surface of the thrombin molecule, which points to the aqueous solvent. As tryptophan is a highly hydrophobic amino acid, the Arg --> Trp change may be associated with instability of the thrombin molecule.

Connexin26 mutations associated with the most common form of non-syndromic neurosensory autosomal recessive deafness (DFNB1) in Mediterraneans

Non-syndromic neurosensory autosomal recessive deafness (NSRD) is the most common form of genetic hearing loss. Previous studies defined at least 15 human NSRD loci. Recently we demonstrated that DFNB1, located on the long arm of chromosome 13, accounts for approximately 80% of cases in the Mediterranean area. Further analysis with additional markers now identifies several recombinants which narrow the candidate region to approximately 5 cM, encompassed by markers D13S141 and D13S232 and including several ESTs and candidate genes, including the connexin26 (GJB2) gene. Analysis of PCR products from our affected patients' DNA shows two frameshift mutations in the connexin26 gene. Deletion of a G within a stretch of six Gs at position 35 of the GJB2 cDNA (mutation 35delG) leads to premature chain termination and is present in 63% of NSRD chromosomes, demonstrating linkage to chromosome 13. Deletion of a T at position 167 of GJB2 (mutation 167delT), also resulting in premature chain termination, was detected in another patient. Four neutral sequence polymorphisms were also identified. These findings are in agreement with a recent study showing that mutations in the connexin26 gene are associated with genetic forms of deafness in three Pakistani families and that GJB2 is DFNB1. Connexin26 is a member of a large family of proteins involved in formation of gap junctions, which are involved in electrical synapses and the direct transfer of small molecules and ionic currents between neighboring cells. The identification of GJB2 as the DFNB1 gene should provide a better understanding of the biology of normal and abnormal hearing, help form the basis for diagnosis and may facilitate development of strategies for treatment of this common genetic disorder.

Different hematological phenotypes caused by the interaction of triplicated alpha-globin genes and heterozygous beta-thalassemia

The pathophysiology and clinical severity of beta-thalassemia are related to the degree of alpha/non-alpha-chain imbalance. A triplicated alpha-globin gene locus can exacerbate effects of excess alpha-chains caused by a defective beta-globin gene, although this is not observed in all cases. Extensive studies on this condition are lacking. We report a group of 17 patients who are heterozygous for both the alpha alpha alpha(anti-3.7) allele and a mutation in the beta-globin gene cluster. Their clinical phenotypes varied: six had mild anemia with microcytosis and hypochromia, while 11 had more severe anemia with splenomegaly requiring splenectomy (three cases) and blood transfusions (four cases). Different phenotypes were also evident in the presence of the same beta-thalassemia mutation: in one family, two individuals had the same alpha- and beta-globin genotypes but presented with different hematologic phenotypes. In addition, the complex interaction involving a triplicated alpha-globin gene, beta39- and delta+27-thalassemia mutations is studied in a family with two siblings presenting with hemolytic anemia, normal Hb A2 and increased Hb F. Analysis of this series of patients suggests that additional genetic determinants play a role in modulating phenotypic expression in individuals with identical alpha- and beta-globin genotypes. Interaction with a triplicated alpha-gene can play a role in the clinical presentation of patients with defective beta-globin gene expression and should be considered in the diagnosis of atypical cases.

Diagnosis of Duchenne/Becker muscular dystrophy and quantitative identification of carrier status by use of entangled solution capillary electrophoresis

Use of capillary electrophoresis, a new and useful analytical tool, offers a variety of advantages for nucleic acid analyses, including rapid analysis, automation, high resolution, qualitative and quantitative results, and low consumption of both sample and reagents. We report the first example of the use of entangled solution capillary electrophoresis (ESCE) and laser-induced fluorescence detection (LIF) for separation-based diagnostics in the quantitative analysis of multiplex PCR products for determination of carrier status of Duchenne/ Becker muscular dystrophy (DMD/BMD). This approach greatly improved the speed, resolution, and sensitivity of information needed for the diagnosis of DMD/BMD compared with that from conventional diagnostic methods, and is of general utility for diagnosis of genetic diseases.

Hb Osler [beta 145(HC2)Tyr-->Asp] results from posttranslational modification

We studied two members of an African American family with erythrocytosis. An abnormal hemoglobin variant with an electrophoretic pattern on cellulose acetate similar to Hb J was identified. The oxygen dissociation curve using whole blood was biphasic, dramatically left-shifted, and hyperbolic. Sequence analysis of DNA from the proband showed heterozygosity for a T-->A change at the first position of codon 145 in the beta-globin gene which results in the substitution of an asparagine residue for normal tyrosine. The second cycle of C-terminal amino acid sequence analysis of a mixture of alpha- and beta-globin chains showed tyrosine, aspartic acid, and small amounts of asparagine. Collectively, these results indicate the existence of a mutation at codon 145 of the beta-globin gene which encodes for asparagine instead of tyrosine, and that asparagine then undergoes a partial posttranslational deamidation to aspartic acid. This amino acid substitution corresponds to Hb Osler, which is a high oxygen affinity hemoglobin variant, initially described to be caused by a substitution of Tyr-->Asp at beta 145. Posttranslational amino acid modification may constitute an important component in the pathophysiology of hemoglobinopathies.

alpha-thalassemia caused by a 16 bp deletion in the 3' untranslated region of the alpha 2-globin gene including the first nucleotide of the poly A signal sequence

We have identified a 16 bp deletion in the 3' untranslated region of the alpha 2-globin gene, including the first nucleotide of the polyadenylation signal sequence. The propositus, her mother and one of her brothers, all heterozygotes for the above deletion, have mild microcytic anemia. This is the first description of a deletion in the alpha gene involving both the 3' untranslated region and the polyadenylation signal sequence, causing alpha-thalassemia.

Linkage of DFNB1 to non-syndromic neurosensory autosomal-recessive deafness in Mediterranean families

Recent studies show a susceptibility locus (DFNB1) responsible for non-syndromic neurosensory autosomal-recessive deafness (NSRD) mapping to the pericentromeric region of chromosome 13q. In order to better understand the frequency with which DFNB1 is the gene for deafness in our patient population and the role of DFNB1 in Caucasians, we performed a genetic linkage study with four microsatellite markers linked to DFNB1 in a total of 48 independent Mediterranean families, of which 30 and 18 were of Italian and Spanish descent, respectively. A maximum two-point lod score of 7.28 was found with marker D13S115 at a recombination frequency of theta 0.1. Significant lod scores were also obtained for D13S143, D13S292 and D13S175. Genetic heterogeneity was confirmed using the HOMOG program which indicated absence of linkage to DFNB1 in approximately 21% of the sample. This study clearly demonstrates that DFNB1 plays an important role in 79% of Mediterranean families with NSRD. Furthermore, results from multipoint analysis predict that the DFNB1 gene maps between markers D13S175 and D13S115 which are separated by approximately 14.2 cM.

Expression of soluble human beta-globin chains in bacteria and assembly in vitro with alpha-globin chains

Authentic soluble human beta-globin chains were produced in Escherichia coli using an expression plasmid (pHE2beta) containing full-length cDNAs coding for human beta-globin chain and methionine aminopeptidase. Spectral properties of the purified beta-globin were identical to those of authentic beta-globin. Soluble beta-globin showed low (16 kDa) and high molecular mass (32 kDa) forms that could be separated by gel filtration chromatography. SDS-polyacrylamide gel electrophoresis and electrospray mass spectrometry revealed the 32-kDa species was dimeric beta-globin formed by an intermolecular disulfide bond, while the 16-kDa species was authentic monomeric beta-globin. Monomeric forms of beta-globin, like authentic native beta-globin, formed tetrameric hemoglobin (Hb) A (alpha2beta2) in vitro upon incubation with alpha-globin, while dimeric forms did not. When beta-globin dimers, however, were converted to monomers by incubation with dithiothreitol, the beta-globin chain monomers assembled with alpha-globin and formed hemoglobin tetramers. alpha-Globin was more thermally unstable than beta-globin, while assembled tetramers promoted higher stability. Disulfide-bonded beta-globin dimers showed a slight increase in thermal stability compared with beta-globin; however, dimers were still more unstable than tetrameric Hb A. These results indicate that presence of alpha chains favors assembly with beta-globin, beta-beta dimers cannot bind alpha chains, and that Hb A tetramer formation results in the most thermally stable species.

Expression studies of delta-globin gene alleles associated with reduced hemoglobin A2 levels in Greek Cypriots

We previously identified five delta-globin gene alleles associated with reduced hemoglobin (Hb) A2 (Trifillis, P., Ioannou, P., Schwartz, E., and Surrey, S. (1991) Blood 78, 3298-3305). We have now evaluated functional consequences of the changes after expression in COS-1 cells to monitor effects on RNA splicing. In addition, variant Hb A2 tetramers were expressed in yeast to assess effects of amino acid changes on oxygen binding and stability to heat and mechanical agitation. The G --> T change at codon 27 and the A --> G change in IVS-2 both affect RNA splicing, whereas the C --> T change at codon 97 and the AT deletion in IVS-2 have no effect. Oxygen equilibrium curves of the Hb A2 variants expressed in yeast were similar to that of wild type Hb A2. None of the three variant Hb A2 tetramers (Thr --> Ile at codon 4 (Hb deltaT4I), Ala --> Ser at codon 27 (Hb deltaA27S), and Arg --> Cys at codon 116 (Hb deltaR116C)) showed decreased heat stability compared with Hb A2, whereas the Hb deltaT4I variant showed highest instability to mechanical agitation. Co-expression in yeast of alpha-globin chain and the delta-chain variant containing a Leu --> Pro change at codon 141 yielded no identifiable tetramers, suggesting lack of assembly or severe tetramer instability. These studies show the probable cause for decreased Hb A2 for two alleles is due to defective splicing, whereas decreased protein stability, increased tetramer association with red cell membranes, increased interdisulfide bond formation of delta-chains, which inhibits assembly with alpha-chains, and/or reduced assembly is suggested for the other three alleles.

Polymerization of three hemoglobin A2 variants containing Val6 and inhibition of hemoglobin S polymerization by hemoglobin A2

To understand determinants for hemoglobin (Hb) stability and Hb A2 inhibition of Hb S polymerization, three Valdelta6 Hb A2 variants (Hb A2 deltaE6V, Hb A2 deltaE6V,deltaQ87T, and Hb A2 deltaE6V, deltaA22E,deltaQ87T) were expressed in yeast, and stability to mechanical agitation and polymerization properties were assessed. Oxy forms of Hb A2 deltaE6V and Hb A2 deltaE6V,deltaQ87T were 2- and 1.6-fold, respectively, less stable than oxy-Hb S, while the stability of Hb A2 deltaE6V,deltaA22E,deltaQ87T was similar to that of Hb S, suggesting that Aladelta22 and Glndelta87 contribute to the surface hydrophobicity of Hb A2. Deoxy Hb A2 deltaE6V polymerized without a delay time, like deoxy Hb F gammaE6V, while deoxy Hb A2 deltaE6V,deltaQ87T and deoxy Hb A2 deltaE6V,deltaA22E,deltaQ87T polymerized after a delay time, like deoxy Hb S, suggesting that beta87 Thr is required for the formation of nuclei. Deoxy Hb F gammaE6V,gammaQ87T showed no delay time and required a 3.5-fold higher concentration than deoxy Hb S for polymerization, suggesting that Thr effects on Valdelta6 Hb A2 and Valgamma6 Hb F variants are different. Mixtures of deoxy Hb S/Hb A2 deltaE6V,deltaQ87T polymerized, like deoxy Hb S, while polymerization of Hb S/Hb A2 deltaE6V mixtures was inhibited, like Hb S/Hb F gammaE6V mixtures. These results suggest alpha2betaSdelta6 Val, 87 Thr hybrids and Hb A2 deltaE6V,deltaQ87T participate in Hb S nucleation, while only 50% of alpha2betaSdelta6 Val hybrids and none of the Hb A2 deltaE6V participate. These findings are in contrast to those of mixtures of Hb S with Hb F gammaE6V or Hb F gammaE6V,Q87T, which both inhibit Hb S polymerization. Our results also suggest participation in nucleation of some alpha2betaSdelta hybrids in A2S mixtures but not alpha2betaSgamma hybrids in FS mixtures.

Role of hydrophobic amino acids at beta85 and beta88 in stabilizing F helix conformation of hemoglobin S

Three Hb S variants containing Glu substitutions at Phe-beta85 and/or Leu-beta88 were expressed in yeast in an effort to evaluate the role of hydrophobic amino acids at these sites in stabilizing F helix conformation of Hb S. Helix stability of tetrameric Hb S betaF85E,betaL88E was measured by CD and compared with those of Hb S betaF85E, Hb S betaL88E, Hb A, and Hb S. The CD spectra of these Hb S variants were similar to those of Hb S and Hb A at 10 degrees C. However, changes in ellipticity at 222 nm for Hb S betaF85E in the CO form at 60 degrees C were about 15-fold greater than that of Hb S, while those for Hb S betaL88E and Hb S betaF85E,betaL88E were similar and about 30-fold greater than Hb S. Thermal stability measured by continuous scanning of spectral changes revealed the three Hb S variants were much more unstable than Hb S, and stability of Hb S betaF85E,betaL88E was similar to that of Hb S betaL88E rather than Hb S betaF85E. These results suggest that Glu insertion at both beta85 and beta88 makes heme insertion into the heme pocket more difficult; however, once inserted, stability of Hb S betaF85E, betaL88E is similar to Hb S betaL88E rather than Hb S betaF85E. Furthermore, these results suggest that both Phe-beta85 and Leu-beta88 are critical for F helix stabilization and that Glu insertion at beta88 leads to more destabilization than insertion at beta85.

Human c-kit ligand (stem cell factor) induces platelet Fc receptor expression in megakaryoblastic cells

Platelets and megakaryocytes express Fc receptors for IgG which are encoded by the Fc gamma RIIA gene. In an effort to establish a cellular model for induction of Fc gamma RIIA expression during megakaryocyte development by hematopoietic growth factors, steady-state Fc gamma RIIA mRNA levels were monitored in c-kit receptor-positive megakaryocytic cells (M07e, HEL, and Dami) in response to c-kit ligand (KL; also known as stem cell factor, mast cell growth factor, or Steel factor). Northern blot analysis showed that exposure of cells to KL led to significant increases in Fc gamma RIIA levels in M07e (15 x at 24 hours), with smaller increases in HEL (1.9 x at 2 hours) and Dami (1.6 x at 24 hours) cells. K562 cells, which lack c-kit receptor, showed no effect of KL on modulating Fc gamma RIIA mRNA levels. The effects of KL were specific for Fc gamma RIIA, as there were no effects on platelet factor 4 (PF4), gamma-globin, or GATA-1 mRNA levels. Effects of KL, alone and in combination with granulocyte-macrophage colony-stimulating factor (GM-CSF) and gamma-interferon (IFN-gamma), on surface Fc gamma RIIA expression were assessed by flow cytometry using anti-Fc gamma RII monoclonal antibody IV.3. In M07e cells, KL alone and in combination led to significant increases in the percentage of cells positive for surface Fc gamma RIIA and the mean cell fluorescence intensity. Transient transfection studies of an Fc gamma RIIA promoter-luciferase reporter gene in the presence or absence of KL showed increased reporter gene expression in KL-treated cells, with the largest increase (3.7-fold) in the M07e cells. In HEL and Dami cells, other cytokines active in megakaryocytopoiesis when used alone (interleukin-3 [IL-3], IL-6, IL-11, GM-CSF) had negligible activity in increasing reporter gene activity. These results suggest that increased levels of Fc gamma RIIA mRNA after KL treatment of M07e cells are a result, in part, of increased Fc gamma RIIA gene transcription. Our results indicate that M07e cells represent a cellular model for KL-induced Fc gamma RIIA expression in early megakaryocyte development.

Relationship between Fc receptor IIA polymorphism and infection in children with sickle cell disease

OBJECTIVE

Despite penicillin prophylaxis and vaccination, infection with encapsulated organisms remains a leading cause of morbidity and death in children with sickle cell disease. The role of Fc receptors in the clearance of encapsulated organisms is well documented. The His(H)-Arg(R) polymorphism at amino acid 131 of the Fc gamma RIIA receptor alters binding affinity for human IgG2 and influences infection with encapsulated organisms in children without sickle cell disease. We hypothesized that the genotype for high-affinity human IgG2 binding (H/H131) is underrepresented in children with sickle cell disease who had encapsulated organism infection.

DESIGN

We studied 60 black children with sickle cell disease from four participating centers who had a history of encapsulated organism infection. Genomic DNA from peripheral blood was subjected to amplification by polymerase chain reaction and to sequence analysis for identification of the Fc gamma RIIA genotype, and the genotype distribution was then compared with our data from ethnically matched control subjects.

RESULTS

Contrary to our hypothesis, the H/H131 genotype was overrepresented in all individuals (p = 0.046) and in particular in the 11 individuals with a history of Haemophilus influenzae type b infection (64% H/H131, 27% H/R131, 9% R/R131; p = 0.002), in comparison with ethnically matched control subjects (14% H/H131, 60% H/R131, 26% R/R131). In the 51 individuals with a history of Streptococcus pneumoniae infection, the genotype distribution was not statistically significantly different from that of the control population.

CONCLUSIONS

The H/H131 Fc gamma RIIA genotype is overrepresented in black children with sickle cell disease and a history of H. influenzae type b infection but not in those with S. pneumoniae infection.

Allelic association of microsatellites of 6p in Italian hemochromatosis patients

Hemochromatosis (HC) is an inherited disorder of iron metabolism and is frequently seen in Caucasians. The biochemical defect and the responsible gene are unknown, but the HC locus is closely linked to HLA-A on human chromosome 6 in the region 6p21.3. Although extensive studies have been performed in several populations, the precise location of the gene is still undefined. Linkage disequilibrium with HC has been detected for loci that are 3 cM apart: HLA class I and D6S105, which is located on the telomeric side of HLA-A. We have analyzed the inheritance of several multi-allele polymorphisms that map to 6p (D6S265, Y52, HLA-F, D6S306, D6S105, D6S464, D6S299) in 34 Italian HC families and in 17 unrelated patients. Significant association with HC was shown for alleles of multiple markers in the HLA-A region, for the distant marker D6S105, but not for the D6S299 marker at 4 cM from HLA-A on the telomeric side. HC status was unambiguously assigned to 70 affected and 63 unaffected chromosomes from family studies. Thirty five different haplotypes were found in 70 HC chromosomes when considering four markers most tightly associated with the disease. A predominant haplotype comprising alleles 1-3-1-8 (marker order D6S265, HLA-A, Y52, D6S105) accounted for 30% of the HC chromosomes and was absent in normals. A minority of other HC haplotypes could be related to the major haplotype by assuming single crossover events. Results of haplotype studies suggest a founder effect in the Italian population, as previously shown in Australian patients, and a possible common mutation shared with affected individuals of Celtic origin.

Polymerization of recombinant hemoglobin F gamma E6V and hemoglobin F gamma E6V, gamma Q87T alone, and in mixtures with hemoglobin S

To further understand determinants for Hemoglobin (Hb) S polymerization, as well as the inhibitory mechanism of Hb F on Hb S polymerization, Hb F variants containing Val-gamma 6 (Hb F gamma E6V) or Val-gamma 6, Thr-gamma 87 (Hb F gamma E6V, gamma Q87T) were expressed in yeast. The oxy form of Hb F gamma E6V was about 10-fold less stable to mechanical agitation than native oxy Hb F, which is similar to stability differences comparing oxy Hb S and oxy Hb A. Deoxy Hb F gamma E6V showed approximately 20-fold decreased solubility compared with native deoxy Hb F in high phosphate buffer and formed gels like deoxy Hb S in low phosphate buffer, indicating that the Val-gamma 6 substitution decreases solubility of Hb F like Val-beta 6 in deoxy Hb S. Oversaturated deoxy Hb F gamma E6V polymerized without a delay time in low and high phosphate buffers, in contrast to deoxy Hb S, which is accompanied by a distinct delay time before polymerization. Deoxy Hb F gamma E6V, gamma Q87T also polymerized without a delay time like deoxy Hb F gamma E6V. These results suggest that deoxy Hb F gamma E6V gamma Q87T polymers are different from those of deoxy Hb S, and that contact sites differ from those of deoxy Hb S, even though both have the same primary donor (A3) and acceptor sites in the EF helix. These results also suggest that other amino acids in addition to beta 6 Val and amino acids in the F helix are critical for nucleation-controlled polymerization of deoxy Hb S. 1:1 mixtures of deoxy Hb S and either Hb F variant polymerized with a delay time when the concentrations for the Hb S/Hb F gamma E6V and Hb S/Hb F gamma E6V, gamma Q87T mixtures were about 2- and 1.5-fold, respectively, higher than that for Hb S. Logarithmic plots of delay time versus concentration for Hb S/Hb F gamma E6V mixtures showed the same straight line as the line for Hb S/Hb S beta T87Q mixtures, but values for Hb S/Hb F gamma E6V, gamma Q87T mixtures were intermediate between those for Hb S and Hb S/Hb F gamma E6V mixtures. A 1:1 mixture of deoxy Hb A and Hb F gamma E6V, gamma Q87T also polymerized, but exhibited biphasic kinetics, when the concentration was increased to more than 3.5-fold higher than that required for Hb S polymer formation. These results suggest that Gin-gamma 87 is a critical amino acid for exclusion of FS hybrids (alpha 2 beta S gamma) from nuclei formation with Hb S. Our findings also show that Val-gamma 6 in hybrids that form in mixtures of the Hb F variants with either Hb S or Hb A interacts with the hydrophobic acceptor pocket on the EF helix of an adjacent tetramer containing Thr-beta 87.

Polymerization of recombinant Hb S-Kempsey (deoxy-R state) and Hb S-Kansas (oxy-T state)

In order to investigate the role of the R (relaxed) to T (tense) structural transition in facilitating polymerization of deoxy-Hb S, we have engineered and expressed two Hb S variants which destabilize either T state (Hb S-Kempsey, alpha 2 beta 2 Val-6,Asn-99) or R state structures (Hb S-Kansas, alpha 2 beta 2 Val-6, Thr-102). Polymerization of deoxy-Hb S-Kempsey, which shows high oxygen affinity and increased dimer dissociation, required about 2- and 6-fold higher hemoglobin concentrations than deoxy-Hb S for polymerization in low and high phosphate concentrations, and its kinetic pattern of polymerization was biphasic. In contrast, oxy- or CO Hb S-Kansas, which shows low oxygen affinity and increased dimer dissociation, polymerized at a slightly higher critical concentration than that required for polymerization of deoxy-Hb S in both low and high phosphate buffers. Polymerization of oxy- and CO Hb S-Kansas was linear and showed no delay time, which is similar to oversaturated oxy- or CO Hb S. These results suggest that nuclei formation, which occurs during the delay time prior to deoxy-Hb S polymerization, does not occur in T state oxy-Hb S-Kansas, even though the critical concentration for polymerization of T state oxy-Hb S-Kansas is similar to that of T state deoxy-Hb S.

Infundibulopelvic stenosis, multicystic kidney, and calyectasis in a kindred: clinical observations and genetic analysis

Congenital obstructive anomalies of the urinary tract usually occur sporadically. We describe inheritance in a three-generation kindred of a spectrum of kidney anomalies consistent with an autosomal-dominant mode of transmission, with incomplete penetrance, calyectasis (maternal grandmother), infundibulopelvic stenosis (uncle), and multicystic kidney (male proband, age 4 years). The proband's mother, father and half sister had normal renal imaging studies. Inheritance of informative polymorphic markers (3'-HVR, GGG1, GGG9, SM-7, KG8, and CW3) mapping close to the adult polycystic kidney disease type 1 (PKD-1) and tuberous sclerosis (TSC-2) loci on chromosome 16p was evaluated by Southern blot studies and by PCR-based, fluorescent genotyping for linkage to phenotype. The 3 affected individuals, as well as the unaffected mother (obligate carrier) and unaffected half-sister, inherit a common chromosome haplotype linked to the PKD1 locus. Our findings support the hypothesis that these anomalies may be part of a spectrum of obstructive renal dysplasia which are inherited as a simple Mendelian trait exhibiting an autosomal-dominant mode of transmission with variable expression and incomplete penetrance.

Mutational analysis of phenylalanine beta 85 in the valine beta 6 acceptor pocket during hemoglobin S polymerization

Hemoglobin (Hb) S containing Leu, Ala, Thr, or Trp substitutions at beta 85 were made and expressed in yeast in an effort to evaluate the role of Phe-beta 85 in the acceptor pocket during polymerization of deoxy Hb S. The four Hb S variants have the same electrophoretic mobility as Hb S, and these beta 85 substitutions do not significantly affect heme-globin interactions and tetramer helix content. Hb S containing Trp-beta 85 had decreased oxygen affinity, whereas those with Leu-, Ala-, and Thr-beta 85 had increased oxygen affinity. All four supersaturated beta 85 variants polymerized with a delay time as does deoxy Hb S. This is in contrast to deoxy Hb S containing Phe-beta 88, Ala-beta 88, Glu-beta 88, or Glu-beta 85, which polymerized with no clear delay time (Adachi K, Konitzer P, Paulraj CG, Surrey S, 1994, J Biol Chem 269:17477-17480; Adachi K, Reddy LR, Surrey S, 1994, J Biol Chem 269:31563-31566). Leu substitution at beta 85 accelerated deoxy Hb S polymerization, whereas Ala, Thr, or Trp substitution inhibited polymerization. The length of the delay time and total polymer formed for these beta 85 Hb S variants depended on hemoglobin concentration in the same fashion as for deoxy Hb S: the higher the concentration, the shorter the delay time and the more polymer formed. Critical concentrations required for polymerization of deoxy Hb SF veta 85L, Hb SF beta 85A, Hb SF beta 85T, and Hb SF beta 85W are 0.65-, 2.2-, 2.5- and 3-fold higher, respectively, than Hb S.(ABSTRACT TRUNCATED AT 250 WORDS)

Nucleic acid detection using non-radioactive labelling methods

Nucleic acid probe-based assays are now widely used in genetic research, human identification, forensics and in a broad spectrum of clinical assays in the fields of microbiology, haematology/oncology and virology. Labelled probes are used in a variety of assay formats including dot-blots, Southern blots (DNA target), Northern blots (RNA target), Western blots (protein target), in situ hybridization, plaque or colony screening and immobilized arrays on silicon or glass surfaces. Traditionally, the probes used in these assays have a radioactive 32phosphorous label that has a short shelf-life, is dangerous, has high disposal costs and, when labelled to high specific-activity, may be unstable. Extensive efforts to develop alternative labelling techniques have resulted in colorimetric, chemiluminescent and fluorescent assay formats. This review summarizes the properties desired in a probe, describes the advantages and disadvantages of the different non-radioactive labelling strategies, and illustrates examples of probe-based assays in which detection is facilitated by imaging samples using a general purpose fluorescence scanner.

Fluorescence-based DNA minisequence analysis for detection of known single-base changes in genomic DNA

We describe a rapid, automated method for direct detection of known single-base changes in genomic DNA. Fluorescence-based DNA minisequence analysis is employed in a template-dependent reaction which involves a single nucleotide extension of an oligonucleotide primer by the correct fluorescently-tagged dideoxynucleotide chain terminator. Detection following electrophoresis on denaturing acrylamide gels is facilitated by alkaline phosphatase treatment of reaction products after extension followed by isopropanol precipitation of the dye-tagged, single-base-extended primer to remove unincorporated deoxynucleotides. Fluorescence analysis of the incorporated dye tag reveals the identity of the template nucleotide immediately 3' to the primer site. This technique does not require radioactivity or biotinylated PCR product, relies on the incorporation of a single dideoxynucleotide terminator to extend the primer by one nucleotide and takes advantage of the sensitivity of fluorescent terminators developed for automated DNA sequence analysis. As a demonstration, we have applied the assay to human genomic DNA for detection of the sickle mutation in the beta-globin gene, and have also examined feasibility for simultaneous delineation using a multiplex-like strategy in a single gel-lane of some of the most common beta-thalassemia mutations in the Mediterranean basin.

Megakaryocyte-specific positive regulatory sequence 5' to the human PF4 gene

Platelet factor 4 (PF4) is only expressed in platelets and is an appropriate marker for studying megakaryocytic differentiation. We previously characterized cDNA and genomic clones for human PF4 (hPF4) and now present transient expression studies defining the promoter of the gene. 12-O-tetradecanoyl-phorbol-13- acetate (TPA) induces megakaryocytic differentiation of human erythroleukemia (HEL) cells, providing an excellent model system for the study of megakaryocyte-specific promoter activity. Luciferase reporter-gene constructs containing sequences from -2074 to +49 were used to map regions that may regulate PF4 gene expression. The sequence in the region -239 to -107 increased basal promoter activity by four- to five-fold in TPA-induced HEL cells. The sequence between -239 and -107 contains 53 consecutive thymidine residues. Functional studies using constructs in this region show that poly(T) and the region -187 to -107 are necessary for the total increase in activity in TPA-induced HEL cells. Mobility-shift assays show that the poly(T) tract binds TPA-inducible proteins. The results suggest a complex promoter for the PF4 gene involving a basal nonspecific promoter element between -107 and +49, a positive promoter element between -239 and -107 binding specific nuclear proteins from megakaryocyte-lineage cells, and a silencer-like region between -2074 and -1653.

Role of hydrophobicity of phenylalanine beta 85 and leucine beta 88 in the acceptor pocket for valine beta 6 during hemoglobin S polymerization

Characterization of the hydrophobic EF acceptor pocket involving Phe-beta 85 and Leu-beta 88 as well as the Val-beta 6 donor site is critical for understanding the polymerization of deoxy Hb S. Glu substitutions at beta 85 or beta 88 in Hb S were made and expressed in yeast in an effort to evaluate the role of hydrophobicity in the acceptor pocket during polymerization of Hb S. Both substitutions result in decreased tetramer stability, increases in oxygen affinity, and inhibition in polymerization compared with Hb S. Critical concentrations for polymerization of Hb SF beta 85E and Hb SL beta 88E were 2.4- and 7-fold higher, respectively, than that of Hb S, while the value for Hb SL beta 88E was intermediate between those previously reported for Hb SL beta 88A and Hb SL beta 88F (Adachi, K., Konitzer, P., Paulraj, C. G., and Surrey, S. (1994) J. Biol. Chem. 269, 17477-17480). Kinetics of polymerization of Glu-beta 85 and Glu-beta 88 deoxy Hb S tetramers were biphasic at lower hemoglobin concentrations like deoxy Hb SL beta 88A, suggesting formation of two types of polymers during polymerization. The time required to form half the total amount of polymer (t1/2) for deoxy Hb SF beta 85E was 10-fold shorter than that for deoxy Hb SL beta 88E. In addition, t1/2 for deoxy Hb SF beta 85E was 2.5-fold shorter, while that for Hb SL beta 88E was 4-fold longer than deoxy Hb SL beta 88A at equivalent concentrations. These results suggest that hydrophobicity of the amino acid at beta 88 appears more critical than that at beta 85 in the acceptor pocket for Val-beta 6. Furthermore, stereospecificity of the acceptor pocket in addition to hydrophobicity of beta 88 are critical for stable hydrophobic interactions with Val-beta 6 during deoxy Hb S polymerization.

Genetic diversity in human Fc receptor II for immunoglobulin G: Fc gamma receptor IIA ligand-binding polymorphism

Fc gamma receptors, and in particular genetic variation in these receptors, are important in disorders of hose defense, immunohematologic disease, and systemic autoimmune diseases. We investigated the His-Arg (CAT/CGT) polymorphism at codon 131 of the Fc gamma receptor IIA gene, which influences ligand binding by the receptor. Previously, individuals had been classified phenotypically on the basis of differential binding of murine immunoglobulin G1, but the Fc gamma receptor IIA genotype distribution has not been reported. We used selective PCR-based sequence analysis of genomic DNA to determine the distribution in healthy individuals. For African-Americans, the genotype distribution was determined to be A/A (14%), A/G (60%), and G/G (26%); for Caucasian Americans, the distribution was A/A (30%), A/G (51%), and G/G (19%). These data correlate well with phenotypic data. We implemented a nonradioactive single-stranded conformational polymorphism analysis to rapidly identify all three genotypes. The PCR-single-stranded conformational polymorphism analysis method will facilitate studies of the genotype distribution in individuals with disorders of immune function.