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ABSTRACT: The cDNA sequence and serological data for HLA-B73 are reported. Anti-B73 sera are found relatively frequently, considering the rarity of the antigen. It was noted early that in some cases the antibodies in sera of multiparous women did not react with the eliciting cells (fathers) and thus all behaved as a naturally occurring antibody. We report on 18 B73 antisera found during the screening of 55000 Danish sera. Only one of the 17 stimulators typed also had the B73 tissue type. Ten of the stimulators had antigens from the B7 CREG (B7, B22, B27, B42, B67, B73), whereas none of the responders had such tissue types. In seven cases the serum was not able to react with the stimulator's lymphocytes in a cytotoxicity assay and in four cases the stimulator lymphocytes could not deplete the anti-B73 activity from the serum in absorption experiments. The cDNA of B73 was expressed correctly in COS cells and was recognized on the cell surface by a monospecific serum. The α1α2 domains of B73 are most similar to those of the HLA-B22 family. Interestingly, the α3 and transmembrane domains of HLA-B73 are not standard human domains, but are most similar to the corresponding domains of some gorilla and chimpanzee HLA-B genes.
International Journal of Immunogenetics 04/2007; 22(3):231 - 240. · 1.29 Impact Factor
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ABSTRACT: We have analyzed the role of the highly abundant molecular chaperone Hsp60 in the biogenesis of medium-chain acyl-CoA dehydrogenase (MCAD) using RNA interference (RNAi). MCAD is a mitochondrial enzyme involved in the fatty acid metabolism and previous studies in isolated rat mitochondria or prokaryotic expression systems have shown that Hsp60 and GroEL are involved in the folding of MCAD proteins. To elucidate the impact of Hsp60 levels for folding and assembly of MCAD proteins in intact mammalian cells, we report the design and in vivo synthesis of anti-human Hsp60 small-hairpin RNAs (shRNAs). Quantitative PCR analysis of transfected HEK-293 cells showed significant down-regulation of endogenous Hsp60 mRNA 48h post-transfection and Western blot analysis confirmed the reduced levels of Hsp60 protein. Furthermore, expression of exogenous Myc-tagged Hsp60 was decreased in shRNA-transfected cells. Flow cytometry showed that shRNA-treatment only affects green fluorescent protein targeted to mitochondria, demonstrating that the shRNA effect is specific. In cells with reduced Hsp60 levels both the amounts of total MCAD proteins and folded MCAD were reduced for MCAD wild-type and the two disease-associated variants studied. A similar effect was observed in cells expressing mitochondrial short-chain acyl-CoA dehydrogenase. Thus, in intact human cells we demonstrate that Hsp60 is involved in the folding of MCAD variant proteins. The present system can be used to study the requirement of Hsp60 for folding of other mitochondrial proteins and to assess the role of Hsp60 for the severity of genetic defects involving these proteins
Mol.Genet.Metab. 05/2005; 85(4).
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ABSTRACT: The function of a series of LDL receptor GFP fusion proteins with different, flexible, unstructured spacer regions was analysed. An optimised version of the fusion protein was used to analyse the effect of an LDL receptor mutation (W556S) found in FH patients and characterised as transport defective. In cultured liver cells this mutation was found to inhibit the transport of LDL receptor GFP fusion protein to the cell surface, thus leading to impaired internalisation of fluorescent labelled LDL. Co-localisation studies confirmed the retention of the mutant protein in the endoplasmic reticulum. Wild type (WT) and W556S LDL receptor GFP fusion proteins were expressed in mouse liver by means of hydrodynamic delivery of naked DNA. Two days after injection liver samples were analysed for GFP fluorescence. The WT LDL receptor GFP protein was located on the cell surface whereas the W556S LDL receptor GFP protein was retained in intracellular compartments. Thus, the GFP-tagged LDL receptor protein allows both detailed time lapse analysis and evaluations in animals for the physiological modelling of mutations. This method should be generally applicable in functional testing of gene products for aberrant processing.
European Journal of HumanGenetics 12/2001; 9(11):815-22. · 4.40 Impact Factor
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ABSTRACT: The human plasma protein mannan-binding lectin (MBL) is an essential part of the innate immune defense system. Low levels of MBL are associated with recurrent infections and other clinically significant signs of a compromised immune defense. Previous studies have addressed the possibility of reconstitution therapy by the use of recombinant or plasma-derived protein. Natural MBL is a multimeric protein, which consists of up to 18 identical polypeptide chains. Synthesis by in vitro methods of MBL with the proper multimeric structure is difficult. We here report that mice obtain MBL levels comparable to those found in normal human plasma when injected with an MBL expression construct as naked plasmid DNA contained in a large volume of physiologic salt solution. The expression was confined to the liver and high MBL expression levels were obtained with less than 5% of the liver cells transfected. The multimeric structure of the MBL found in plasma of injected mice was similar to that of natural MBL. Thus, liver expression following injection of naked DNA is an alternative to reconstitution therapy with a protein having a complex quaternary structure.
Molecular Therapy 07/2001; 3(6):867-74. · 6.87 Impact Factor
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T Vorup-Jensen,
E S Sørensen,
U B Jensen,
W Schwaeble,
T Kawasaki,
Y Ma,
K Uemura,
N Wakamiya,
Y Suzuki, T G Jensen,
K Takahashi,
R A Ezekowitz,
S Thiel,
J C Jensenius
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ABSTRACT: Mannan-binding lectin (MBL) constitutes an important part of the innate immune defence by effecting the deposition of complement on microbial surfaces. MBL deficiency is among the most common primary immunodeficiencies and is associated with recurrent infections and symptoms of poor immune complex clearance. Plasma-derived MBL has been used in reconstitution therapy but concerns over viral contamination and production capacity point to recombinant MBL (rMBL) as a future source of this protein for clinical use. Natural human MBL is an oligomer of up to 18 identical polypeptide chains. The synthesis of rMBL has been accomplished in several mammalian cell lines, however, the recombinant protein differed structurally from natural MBL. In this, study we compare rMBL produced in myeloma cells, Chinese hamster ovary (CHO) cells, human hepatocytes, and human embryonic kidney (HEK) cells. We report that rMBL structurally and functionally similar to natural MBL can be obtained through synthesis in the human embryonic kidney cells followed by selective carbohydrate affinity chromatography.
International Immunopharmacology 05/2001; 1(4):677-87. · 2.38 Impact Factor
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ABSTRACT: Phenylketonuria, PKU, is caused by deficiency of phenylalanine hydroxylase (PAH) resulting in increased levels of phenylalanine in body fluids. PAH requires the non-protein cofactor BH4 and the rate-limiting step in the synthesis of BH4 is GTP cyclohydrolase I (GTP-CH). Here we show that overexpression of the two enzymes PAH and GTP-CH in primary human keratinocytes leads to high levels of phenylalanine clearance without BH4 supplementation. Integration of multiple PAH and GTP-CH transgenes were achieved after optimized retroviral transduction. Phenylalanine clearance was measured ex vivo in primary human keratinocytes cotransduced with PAH and GTP-CH (more than 370 nmol/24 h/106 cells), a level exceeding that of a human liver cell line (HepG2 cells). Cells overexpressing either one of the enzymes alone did not clear significant amounts of phenylalanine. Transfer of the two genes into the same cell was not necessary, since cocultivation of cells transduced separately with PAH and GTP-CH also resulted in phenylalanine clearance. Thus the experiments indicate metabolic cooperation between cells overexpressing PAH and cells overexpressing GTP-CH, possibly due to intercellular transport of synthesized BH4.
Gene Therapy 01/2001; 7(23):1971-8. · 3.71 Impact Factor
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ABSTRACT: We have analysed the consequences of liposome mediated gene transfer into human primary epidermal keratinocytes and compared non-Epstein-Barr Virus (EBV) and EBV based expression vectors that carry the genes encoding human Growth Hormone (hGH) or Enhanced Green Fluorescent Protein (EGFP). Different kinetics between the non-EBV and EBV based vectors were revealed upon subcultivation of hGH transfected keratinocytes. The keratinocytes transfected with non-EBV based vector showed a rapid reduction in hGH production. Although the EBV based vector resulted in more stable expression, this was also reduced over time. Chromatin inactivation by deacetylation was investigated by treatment with sodium butyrate and found not to be the reason for the decreasing expression. Keratinocytes divided into subpopulations enriched for either stem cells or transit amplifying cells, based on beta1-integrin expression and function, do not differ significantly with respect to susceptibility to productive transfection. However, when the keratinocytes were transfected with the EGFP gene and sorted live by FACS into EGFP negative and positive populations, only the negative cells were capable of forming significant numbers of colonies. This is consistent with the observation that the ability to incorporate BrdU was dramatically reduced in the EGFP expressing population within 24-48 h post transfection indicating an almost complete cell cycle arrest. p53 levels were unaffected by the procedures, and the keratinocyte cell line HaCat, mutated in both p53 alleles, also shows a marked reduction in clonogenic potency upon transfection. There was a slight increase of TUNEL positive apoptotic nuclei in the positive population at early time points. However, the apoptotic index was still very low. When we measured the frequency of involucrin expressing cells, we found an increase in the productively transfected population over time indicating an initiation of terminal differentiation. In contrast to the transfected cultures, keratinocytes that were transduced using a retroviral vector showed no decrease in colony forming efficiency. In conclusion we find that transgene expressing cells from transfected cultures of epidermal keratinocytes undergo cell cycle arrest and initiate terminal differentiation by mechanisms which are independent of p53 levels.
Experimental Dermatology 09/2000; 9(4):298-310. · 3.54 Impact Factor
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ABSTRACT: The autosomal dominant form of familial neurohypophyseal diabetes insipidus (adFNDI) is a rare disease characterized by postnatal onset of polyuria and a deficient neurosecretion of the antidiuretic hormone, arginine vasopressin (AVP). Since 1991, adFNDI has been linked to 31 different mutations of the gene that codes for the vasopressin-neurophysin II (AVP-NPII) precursor. The aims of the present study were to relate the clinical phenotype to the specific genotype and to the molecular genetic effects of the most frequently reported adFNDI mutation located at the cleavage site of the signal peptide of AVP-NPII [Ala(-1)Thr]. Genetic analysis and clinical studies of AVP secretion, urinary AVP, and urine output were performed in 16 affected and 16 unaffected family members and 11 spouses of a Danish adFNDI kindred carrying the Ala(-1)Thr mutation. Mutant complementary DNA carrying the same mutation was expressed in a neurogenic cell line (Neuro2A), and the cellular effects were studied by Western blotting, immunocytochemistry, and AVP measurements. The clinical studies showed a severe progressive deficiency of plasma and urinary AVP that manifested during childhood. The expression studies demonstrated that the Ala(- 1)Thr mutant cells produced 8-fold less AVP than wild-type cells and accumulated excessive amounts of 23-kDa NPII protein corresponding to uncleaved prepro-AVP-NPII. Furthermore, a substantial portion of the intracellular AVP-NPII precursor appeared to be colocalized with an endoplasmic reticulum antigen (Grp78). These results provide independent confirmation that this Ala(-1)Thr mutation produces adFNDI by directing the production of a mutant preprohormone that accumulates in the endoplasmic reticulum, because it cannot be cleaved from the signal peptide and transported to neurosecretory vesicles for further processing and secretion.
Journal of Clinical Endocrinology & Metabolism 09/1999; 84(8):2933-41. · 6.50 Impact Factor
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ABSTRACT: Most disease-causing missense mutations in short-chain acyl-CoA dehydrogenase (SCAD) and medium-chain acyl-CoA dehydrogenase are thought to compromise the mitochondrial folding and/or stability of the mutant proteins. To address this question, we studied the biogenesis of SCAD proteins in COS-7 cells transfected with cDNA corresponding to two SCAD missense mutations, R22W (identified in a patient with SCAD deficiency) or R22C (homologous to a disease-associated R28C mutation in medium-chain acyl-CoA dehydrogenase deficiency). After cultivation at 37 degreesC the steady-state amounts of SCAD antigen and activity in extracts from cells transfected with mutant SCAD cDNAs were negligible compared with those of cells transfected with SCAD wild type cDNA, documenting the deleterious effect of the two mutations. Analysis of metabolically labeled and immunoprecipitated SCAD wild type and mutant proteins showed that the two mutant proteins were synthesized as the 44-kDa precursor form, imported into mitochondria and processed to the mature 41.7-kDa form in a normal fashion. However, the intramitochondrial level of matured mutant SCAD proteins decreased rapidly to very low levels, indicating a rapid degradation of the mutant proteins at 37 degreesC. A rapid initial elimination phase was also observed following cultivation at 26 degreesC; however, significantly higher amounts of metabolically labeled and immunoprecipitated mature mutant SCAD proteins remained detectable. This corresponds well with the appreciable steady-state levels of SCAD mutant enzyme activity observed at 26 degreesC. In addition, confocal laser scanning microscopy of immunostained cells showed that the SCAD mutant proteins were localized intramitochondrially. Together, these results show that newly synthesized SCAD R22W and R22C mutant proteins are imported and processed in the mitochondrial matrix, but that a fraction of the proteins is rapidly eliminated by a temperature-dependent degradation mechanism. Thermal stability profiles of wild type and mutant enzymes revealed no difference between the two mutants and the wild type protein. Furthermore, the turnover of the SCAD mutant enzymes in intact cells was comparable to that of the wild type, indicating that the rapid degradation of the mutant SCAD proteins is not due to lability of the correctly folded tetrameric structure but rather to elimination of partly folded or misfolded proteins along the folding pathway.
Journal of Biological Chemistry 06/1998; 273(21):13065-71. · 4.77 Impact Factor
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ABSTRACT: Most disease-causing missense mutations in short-chain acyl-CoA dehydrogenase (SCAD) and medium-chain acyl-CoA dehydrogenase are thought to compromise the mitochondrial folding and/or stability of the mutant proteins. To address this question, we studied the biogenesis of SCAD proteins in COS-7 cells transfected with cDNA corresponding to two SCAD missense mutations, R22W (identified in a patient with SCAD deficiency) or R22C (homologous to a disease- associated R28C mutation in medium-chain acyl-CoA dehydrogenase deficiency). After cultivation at 37 degreesC the steady-state amounts of SCAD antigen and activity in extracts from cells transfected with mutant SCAD cDNAs were negligible compared with those of cells transfected with SCAD wild type cDNA, documenting the deleterious effect of the two mutations. Analysis of metabolically labeled and immunoprecipitated SCAD wild type and mutant proteins showed that the two mutant proteins were synthesized as the 44- kDa precursor form, imported into mitochondria and processed to the mature 41.7-kDa form in a normal fashion. However, the intramitochondrial level of matured mutant SCAD proteins decreased rapidly to very low levels, indicating a rapid degradation of the mutant proteins at 37 degreesC. A rapid initial elimination phase was also observed following cultivation at 26 degreesC; however, significantly higher amounts of metabolically labeled and immunoprecipitated mature mutant SCAD proteins remained detectable. This corresponds well with the appreciable steady-state levels of SCAD mutant enzyme activity observed at 26 degreesC. In addition, confocal laser scanning microscopy of immunostained cells showed that the SCAD mutant proteins were localized intramitochondrially. Together, these results show that newly synthesized SCAD R22W and R22C mutant proteins are imported and processed in the mitochondrial matrix, but that a fraction of the proteins is rapidly eliminated by a temperature- dependent degradation mechanism. Thermal stability profiles of wild type and mutant enzymes revealed no difference between the two mutants and the wild type protein. Furthermore, the turnover of the SCAD mutant enzymes in intact cells was comparable to that of the wild type, indicating that the rapid degradation of the mutant SCAD proteins is not due to lability of the correctly folded tetrameric structure but rather to elimination of partly folded or misfolded proteins along the folding pathway
J.Biol.Chem. 01/1998; 273(21).
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H K Jensen,
H Holst,
L G Jensen,
M M Jørgensen,
P H Andreasen, T G Jensen,
B S Andresen,
F Heath,
P S Hansen,
S Neve,
K Kristiansen,
O Faergeman,
S Kølvraa,
L Bolund,
N Gregersen
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ABSTRACT: In a group of unrelated Danish patients with familial hypercholesterolemia (FH) we recently reported two common low-density lipoprotein (LDL) receptor mutations, W23X and W66G, accounting for 30% of the cases. In this study, we describe another common LDL receptor mutation, a G to C transition at cDNA position 1730 in exon 12, causing a tryptophan to serine substitution in amino acid position 556 (W556S). In the Danish patients, the W556S mutation was present in 12% of 65 possible mutant alleles. The pathogenicity of the W556S mutation, which is located in one of the five conserved motifs Tyr-Trp-Thr-Asp in the epidermal growth factor homology region, was studied in transfected COS-7 cells expressing normal and mutant LDL receptor cDNAs. Results obtained by immunofluorescence flow cytometry and confocal microscopy, as well as by immunoprecipitation, were compatible with complete retention of the mutant protein in the endoplasmic reticulum. The transport-defective W556S mutation and the W23X and W66G mutations seem to account for about 40% of the LDL receptor defects in Danish families with FH.
Atherosclerosis 06/1997; 131(1):67-72. · 3.79 Impact Factor
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H K Jensen, T G Jensen,
O Faergeman,
L G Jensen,
B S Andresen,
M J Corydon,
P H Andreasen,
P S Hansen,
F Heath,
L Bolund,
N Gregersen
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ABSTRACT: Mutations in genes are not necessarily pathogenic. Expression of mutant genes in cells can therefore be required to demonstrate that mutations in fact disturb protein function. This applies especially to missense mutations, which cause an amino acid to be replaced by another amino acid. In the present study of two families with familial hypercholesterolemia in the heterozygous form, we found two mutations in the same allele of the low-density lipoprotein (LDL) receptor gene: a missense Asn543. His mutation (N543H) in exon 11, and an in-frame 9-bp deletion (2393del9) in exon 17. The two mutations were identified in heterozygous FH index patients in whom no other pathogenic mutations were detected by SSCP analysis of the remaining 16 exons and the promoter region. Both mutations cosegregated with hypercholesterolemia within the families. Each of these mutations had little or no effect on receptor function in transfected COS cells, but when both mutations were present simultaneously, receptor function, as assessed by flow cytometric measurement of fluorescent LDL uptake in cells, was reduced by 75%. Immunostainable receptors on the cell surface were decreased by 80% as measured by flow cytometry. The two mutations therefore acted in synergy to affect receptor function, possibly during intracellular receptor transport, since Northern blot analysis suggested that mRNA levels were unaffected. Without screening of the entire coding regions of the gene, the synergistic action of these two LDL receptor mutations would not have been detected.
Human Mutation 02/1997; 9(5):437-44. · 5.69 Impact Factor
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ABSTRACT: We have used a combination of biochemical and immunological methods to probe for proteins that interact with the cytoplasmic form of plasminogen activator inhibitor 2 (PAI-2) and to identify the structure in PAI-2 that mediates the binding. By affinity chromatography on immobilized PAI-2, we purified a collection of PAI-2-binding proteins. These proteins bound 125I-labeled PAI-2 in vitro (IC50, approximately 10-100 nM) in a calcium-independent reaction that did not abrogate the proteinase inhibitory function of PAI-2. Annexin I was identified among the eluted proteins, and purified annexins I, II, IV, and V, but not III and VI, possessed 125I-labeled PAI-2 binding activity. Immune precipitation by anti-PAI-2 monoclonal and polyclonal antibodies of metabolically labeled melanoma cells treated with a cleavable cross-linker prior to analysis revealed three prominent proteins with apparent masses of 100, 70, and 50 kDa. We localized the protein binding domain in PAI-2 between amino acid residues 66 and 98, as determined by using a PAI-2 mutant lacking this domain and a synthetic peptide spanning this region. This region of PAI-2 corresponds to exon 3 of the gene sequence thought to be critical for PAI-2 functions.
Journal of Biological Chemistry 11/1996; 271(43):26892-9. · 4.77 Impact Factor
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M J Corydon,
N Gregersen,
W Lehnert,
A Ribes,
P Rinaldo,
S Kmoch,
E Christensen,
T J Kristensen,
B S Andresen,
P Bross,
V Winter,
G Martinez,
S Neve, T G Jensen,
L Bolund,
S Kølvraa
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ABSTRACT: Ethylmalonic aciduria is a common biochemical finding in patients with inborn errors of short chain fatty acid beta-oxidation. The urinary excretion of ethylmalonic acid (EMA) may stem from decreased oxidation by short chain acyl-CoA dehydrogenase (SCAD) of butyryl-CoA, which is alternatively metabolized by propionyl-CoA carboxylase to EMA. We have recently detected a guanine to adenine polymorphism in the SCAD gene at position 625 in the SCAD cDNA, which changes glycine 209 to serine (G209S). The variant allele (A625) is present in homozygous and in heterozygous form in 7 and 34.8% of the general population, respectively. One hundred and thirty-five patients from Germany, Denmark, the Czech Republic, Spain, and the United States were selected for this study on the basis of abnormal EMA excretion ranging from 18 to 1185 mmol/mol of creatinine (controls < 18 mmol/mol of creatinine). Among them, we found a significant overrepresentation of the variant allele. Eighty-one patients (60%) were homozygous for the A625 allele, 40 (30%) were heterozygous, and only 14 (10%) harbored the wild-type allele (G625) in homozygous form. By overexpressing the wild-type and variant protein (G209S) in Escherichia coli and COS cells, we showed that the folding of the variant protein was slightly compromised in comparison to the wild-type and that the temperature stability of the tetrameric variant enzyme was lower than that of the wild type. Taken together, the over-representation and the biochemical studies indicate that the A625 allele confers susceptibility to the development of ethylmalonic aciduria.
Pediatric Research 07/1996; 39(6):1059-66. · 2.70 Impact Factor
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ABSTRACT: We report our experience with a method to evaluate binding and uptake in cells of low density lipoprotein (LDL) from heterozygous patients with familial defective apolipoprotein B-100 (FDB-LDL) and LDL from normolipidemic subjects (nonFDB-LDL). The method is based on competition for binding/uptake in Epstein-Barr Virus (EBV)-transformed lymphocytes or COS cells overexpressing an LDL-receptor transgene between fluorescently labeled LDL and the unlabeled LDL of interest, and measurements are by flow cytometry. With EBV-lymphoblasts, the ability of FDB-LDL to displace fluorescent LDL ("Dil"-LDL) from cells at 4 degrees C (binding) was reduced to approximately 1/3 of normal. Displacement of "Dil"-LDL by FDB-LDL from cells at 20 degrees C (binding/uptake) was reduced to less than 1/2 of normal. Similar results were obtained with COS cells. Freezing of serum to -80 degrees C for 24 hours did not affect results, and we could discriminate between binding/uptake of FDB-LDL and nonFDB-LDL prepared from serum that had been stored at -80 degrees C for three months.
Zeitschrift für Gastroenterologie 07/1996; 34 Suppl 3:21-4. · 0.90 Impact Factor
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T G Jensen,
B S Andresen,
H K Jensen,
L G Jensen,
F Heath,
S Pedersen,
V Nielsen,
U B Jensen,
T B Lund,
N Gregersen,
S Kølvraa,
L Bolund
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ABSTRACT: To characterize disease-causing mutations in the low density lipoprotein receptor (LDL-R) gene, COS cells are transfected with the mutant gene in an EBV-based expression vector and characterized by flow cytometry. Using antibodies against the LDL-receptor the amount of receptor protein on the cell surface is quantitated. The receptor activity is measured by incubating the cells with fluorescence labeled LDL (Dil-labelled LDL) at 37 degrees C and 4 degrees C. The transfected cells stained with anti-LDL-R antibodies can also be analysed by immunofluorescence microscopy allowing the study of the intracellular location of variants of the receptor. To evaluate these methods, we are analyzing four previously well-characterized LDL-R mutations, belonging to each of the classes 2 to 5. Preliminary data show that mutant genes belonging to class 3 and 4A give rise to receptor protein on the cell surface, but impaired LDL uptake, while mutant receptors belonging to class 2A and 5 can only be detected intracellularly. Expression of the class 2A mutation results in an ER staining pattern, whereas the class 5 mutation gives rise to an intracellular staining compatible with localization in the endosomal/lysosomal compartments. We conclude that this system is useful for a rapid functional analysis of newly discovered mutations in the LDL-R gene.
Zeitschrift für Gastroenterologie 07/1996; 34 Suppl 3:9-11. · 0.90 Impact Factor
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ABSTRACT: The cDNA sequence and serological data for HLA-B73 are reported. Anti-B73 sera are found relatively frequently, considering the rarity of the antigen. It was noted early that in some cases the antibodies in sera of multiparous women did not react with the eliciting cells (fathers) and thus all behaved as a naturally occurring antibody. We report on 18 B73 antisera found during the screening of 55,000 Danish sera. Only one of the 17 stimulators typed also had the B73 tissue type. Ten of the stimulators had antigens from the B7 CREG (B7, B22, B27, B42, B67, B73), whereas none of the responders had such tissue types. In seven cases the serum was not able to react with the stimulator's lymphocytes in a cytotoxicity assay and in four cases the stimulator lymphocytes could not deplete the anti-B73 activity from the serum in absorption experiments. The cDNA of B73 was expressed correctly in COS cells and was recognized on the cell surface by a monospecific serum. The alpha 1 alpha 2 domains of B73 are most similar to those of the HLA-B22 family. Interestingly, the alpha 3 and transmembrane domains of HLA-B73 are not standard human domains, but are most similar to the corresponding domains of some gorilla and chimpanzee HLA-B genes.
European Journal of Immunogenetics 07/1995; 22(3):231-40.
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ABSTRACT: We have used expression of human medium chain acyl-CoA dehydrogenase (MCAD) in Escherichia coli as a model system for dissecting the molecular effects of two mutations detected in patients with MCAD deficiency. We demonstrate that the R28C mutation predominantly affects polypeptide folding. The amounts of active R28C mutant enzyme produced could be modulated between undetectable to 100% of the wild-type control by manipulating the level of available chaperonins and the growth temperature. For the prevalent K304E mutation, however, the amounts of active mutant enzyme could be modulated only in a range from undetectable to approximately 50% of the wild-type, and the assembled mutant enzyme displayed a decreased thermal stability. Two artificially constructed mutants (K304Q and K304E/D346K) yielded clearly higher amounts of active MCAD enzyme than the K304E mutant but were also responsive to chaperonin co-overexpression and growth at low temperature. The thermal stability profile of the K304E/D346K double mutant was shifted to even lower temperatures than that of the K304E mutant, whereas that of the K304Q mutant was closely similar to the wild-type. Taken together, the results show that the K304E mutation affects (i) polypeptide folding due to elimination of the positively charged lysine and (ii) oligomer assembly and stability due to replacement of lysine 304 with the negatively charged glutamic acid.
Journal of Biological Chemistry 05/1995; 270(17):10284-90. · 4.77 Impact Factor
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ABSTRACT: Medium-chain acyl-CoA dehydrogenase (MCAD) deficiency is the most common defect in mitochondrial beta-oxidation in humans. It is an autosomal recessive disorder which usually presents in infancy. The disease manifests itself in periods of metabolic stress to the beta-oxidation system and may be fatal. Four years ago we identified a prevalent disease-causing mutation (G985) which causes an amino acid change (K304E) in the mature MCAD protein. Using a Polymerase Chain Reaction (PCR) based assay for this mutation we have demonstrated: 1. that the G985 mutation is present in 90% of the disease alleles from patients from all over the world; 2. that the allele frequency of G985 in the general population from most European countries is very high (the carrier frequency ranges from 1/68 to 1/333); 3. that MCAD deficiency is not, as has previously been suggested, related to Sudden Infant Death Syndrome (SIDS). Moreover, investigation by Restriction Fragment Length Polymorphism (RFLP) analysis of several families with diagnosed MCAD deficiency revealed that the G985 mutation is only present in chromosomes of a particular RFLP haplotype, suggesting a common chromosomal background for this mutation. The other mutations in the MCAD gene are distributed to all known MCAD RFLP haplotypes. Because 80% of the patients are homozygous for the G985 mutation, DNA based diagnosis of most patients is now fast and easy. In order to make DNA based diagnosis possible for the remaining 20% of patients we have set up PCR/solid-phase based semi-automated sequencing of all 12 exons of the MCAD gene. We have so far identified the mutation in 33 of 45 non-G985 homozygous families with verified MCAD deficiency, thereby bringing the number of known mutations in the MCAD gene up to 26. In order to investigate in detail the molecular defects of the mutant MCAD proteins we overexpressed them in COS-7 and in an E. coli based expression system with and without co-overexpression of the molecular chaperones GroES and GroEL. The expression studies revealed that the primary effect of all the identified mutations is on formation of correct enzyme structure, and does not directly affect the catalytically active regions of the enzyme. We find that our diagnostic set up, consisting of an initial testing by the G985 assay, followed by semi-automated sequencing of DNA from those patients who were indicated to be compound heterozygous, is an important improvement to the diagnosis of MCAD deficiency.(ABSTRACT TRUNCATED AT 400 WORDS)
Scandinavian journal of clinical and laboratory investigation. Supplementum 02/1995; 220:9-25.
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ABSTRACT: Medium-chain acyl-CoA dehydrogenase (MCAD) deficiency is a potentially lethal inherited defect in the beta- oxidation of fatty acids. By comparing the behaviour of five missense MCAD mutant proteins expressed in COS cells and in Escherichia coli, we can define some of these as ''pure folding mutants.'' Upon expression in E. coli, these mutant proteins produce activity levels in the range of the wild-type enzyme only if the chaperonins GroESL are co-overproduced. When overexpressed in COS cells, the pure folding mutants display enzyme activities comparable to the wild-type enzyme. The results suggest that the MCAD mutations can be modulated by chaperones, a phenomenon that may influence the manifestation of the MCAD disease. (C) 1995 Wiley Liss, Inc
Hum.Mutat. 01/1995; 6(3).
