Your search keyword '"Tchernia, Gil"' showing total 85 results

1. Long-term follow-up of subtotal splenectomy for hereditary spherocytosis: a single-center study

Author

Pincez, Thomas, Guitton, Corinne, Gauthier, Frédéric, de Lambert, Guénolée, Picard, Véronique, Fénéant-Thibault, Madeleine, Turhan, Ali, Mohandas, Narla, Tchernia, Gil, and Garçon, Loïc

Published

2016

2. Long-term follow-up of subtotal splenectomy for hereditary spherocytosis: a single-center study

Author

Pincez, Thomas, Guitton, Corinne, Gauthier, Frédéric, de Lambert, Guénolée, Picard, Véronique, Fénéant-Thibault, Madeleine, Turhan, Ali, Mohandas, Narla, Tchernia, Gil, and Garçon, Loïc

Published

2016

3. Anémie de Diamond-Blackfan

Author

Aguissa-Touré, Almass-Houd, Da Costa, Lydie, Leblanc, Thierry, Tchernia, Gil, Fribourg, Sébastien, and Gleizes, Pierre-Emmanuel

Abstract

L’anémie de Diamond-Blackfan (ADB) est une érythroblastopénie (absence ou déficit sévère des érythroblastes dans la moelle osseuse) congénitale associée à des mutations hétérozygotes dans des gènes codant des protéines ribosomiques. Des études récentes indiquent que ces mutations ont pour effet premier d’affecter la synthèse des ribosomes. L’explication du lien physiopathologique inattendu entre ce processus ubiquitaire et une maladie affectant particulièrement l’érythropoïèse pourrait en partie se trouver dans la notion émergente de « stress ribosomique », une voie d’arrêt du cycle cellulaire activée en réponse à un défaut de production des ribosomes. L’ADB est devenue un paradigme pour étudier le nombre croissant des maladies liées à la mutation de gènes codant des protéines entrant en jeu dans la biogenèse des ribosomes.

Published

2009

4. Band 3 Courcouronnes (Ser667Phe): a trafficking mutant differentially rescued by wild-type band 3 and glycophorin A

Author

Toye, Ashley M., Williamson, Rosalind C., Khanfar, Moudji, Bader-Meunier, Brigitte, Cynober, Thérèse, Thibault, Madeleine, Tchernia, Gil, Déchaux, Michèle, Delaunay, Jean, and Bruce, Lesley J.

Abstract

We describe a mutation in human erythrocyte band 3 (anion exchanger 1; SLC4A1) causing both hereditary spherocytosis and distal renal tubular acidosis. The proband developed a transfusion-dependent, hemolytic anemia following birth. Immunoblotting showed band 3 was reduced to approximately 35% of wildtype; other proteins of the band 3/Rh macrocomplex were also reduced. DNA sequence analysis revealed a novel homozygous mutation, c.2000C>T, leading to the amino acid substitution Ser667Phe. The parents were heterozygous for the same mutation. Sulfate influx in the patient's erythrocytes was approximately 40% wild type. The mutant band 3 produced very little chloride influx when expressed in Xenopus oocytes. Influx was partially rescued by coexpression of glycophorin A and also rescued by coexpression of wild-type band 3. At 2 years of age, an ammonium chloride challenge showed the child has incomplete distal renal tubular acidosis (dRTA). Stable expression of mutant kidney band 3 in both nonpolarized and polarized Madin-Darby canine kidney cells showed that most of the mutant protein was retained in the endoplasmic reticulum. Overall our results suggest that the Ser667Phe does not affect the anion transport function of band 3, but causes a trafficking defect in both erythrocytes and kidney cells.

Published

2008

5. Band 3 Courcouronnes (Ser667Phe): a trafficking mutant differentially rescued by wild-type band 3 and glycophorin A

Author

Toye, Ashley M., Williamson, Rosalind C., Khanfar, Moudji, Bader-Meunier, Brigitte, Cynober, Thérèse, Thibault, Madeleine, Tchernia, Gil, Déchaux, Michèle, Delaunay, Jean, and Bruce, Lesley J.

Abstract

We describe a mutation in human erythrocyte band 3 (anion exchanger 1; SLC4A1) causing both hereditary spherocytosis and distal renal tubular acidosis. The proband developed a transfusion-dependent, hemolytic anemia following birth. Immunoblotting showed band 3 was reduced to approximately 35% of wildtype; other proteins of the band 3/Rh macrocomplex were also reduced. DNA sequence analysis revealed a novel homozygous mutation, c.2000C>T, leading to the amino acid substitution Ser667Phe. The parents were heterozygous for the same mutation. Sulfate influx in the patient’s erythrocytes was approximately 40% wild type. The mutant band 3 produced very little chloride influx when expressed in Xenopusoocytes. Influx was partially rescued by coexpression of glycophorin A and also rescued by coexpression of wild-type band 3. At 2 years of age, an ammonium chloride challenge showed the child has incomplete distal renal tubular acidosis (dRTA). Stable expression of mutant kidney band 3 in both nonpolarized and polarized Madin-Darby canine kidney cells showed that most of the mutant protein was retained in the endoplasmic reticulum. Overall our results suggest that the Ser667Phe does not affect the anion transport function of band 3, but causes a trafficking defect in both erythrocytes and kidney cells.

Published

2008

6. Impaired ribosome biogenesis in Diamond-Blackfan anemia

Author

Choesmel, Valérie, Bacqueville, Daniel, Rouquette, Jacques, Noaillac-Depeyre, Jacqueline, Fribourg, Sébastien, Crétien, Aurore, Leblanc, Thierry, Tchernia, Gil, Da Costa, Lydie, and Gleizes, Pierre-Emmanuel

Abstract

The gene encoding the ribosomal protein S19 (RPS19) is frequently mutated in Diamond-Blackfan anemia (DBA), a congenital erythroblastopenia. The consequence of these mutations on the onset of the disease remains obscure. Here, we show that RPS19 plays an essential role in biogenesis of the 40S small ribosomal subunit in human cells. Knockdown of RPS19 expression by siRNAs impairs 18S rRNA synthesis and formation of 40S subunits and induces apoptosis in HeLa cells. Pre-rRNA processing is altered, which leads to an arrest in the maturation of precursors to the 18S rRNA. Under these conditions, pre-40S particles are not exported to the cytoplasm and accumulate in the nucleoplasm of the cells in perinuclear dots. Consistently, we find that ribosome biogenesis and nucleolar organization is altered in skin fibroblasts from DBA patients bearing mutations in the RPS19 gene. In addition, maturation of the 18S rRNA is also perturbed in cells from a patient bearing no RPS19-related mutation. These results support the hypothesis that DBA is directly related to a defect in ribosome biogenesis and indicate that yet to be discovered DBA-related genes may be involved in the synthesis of the ribosomal subunits.

Published

2007

7. Impaired ribosome biogenesis in Diamond-Blackfan anemia

Author

Choesmel, Valérie, Bacqueville, Daniel, Rouquette, Jacques, Noaillac-Depeyre, Jacqueline, Fribourg, Sébastien, Crétien, Aurore, Leblanc, Thierry, Tchernia, Gil, Da Costa, Lydie, and Gleizes, Pierre-Emmanuel

Abstract

The gene encoding the ribosomal protein S19 (RPS19) is frequently mutated in Diamond-Blackfan anemia (DBA), a congenital erythroblastopenia. The consequence of these mutations on the onset of the disease remains obscure. Here, we show that RPS19 plays an essential role in biogenesis of the 40S small ribosomal subunit in human cells. Knockdown of RPS19 expression by siRNAs impairs 18S rRNA synthesis and formation of 40S subunits and induces apoptosis in HeLa cells. Pre-rRNA processing is altered, which leads to an arrest in the maturation of precursors to the 18S rRNA. Under these conditions, pre-40S particles are not exported to the cytoplasm and accumulate in the nucleoplasm of the cells in perinuclear dots. Consistently, we find that ribosome biogenesis and nucleolar organization is altered in skin fibroblasts from DBA patients bearing mutations in the RPS19gene. In addition, maturation of the 18S rRNA is also perturbed in cells from a patient bearing no RPS19-related mutation. These results support the hypothesis that DBA is directly related to a defect in ribosome biogenesis and indicate that yet to be discovered DBA-related genes may be involved in the synthesis of the ribosomal subunits.

Published

2007

8. Clinical and Laboratory Manifestations of Congenital Dyserythropoietic Anemia Type I in a Cohort of French Children

Author

Bader-Meunier, Brigitte, Leverger, Guy, Tchernia, Gil, Schischmanoff, Olivier, Cynober, Thérèse, Bernaudin, Françoise, Leblanc, Thierry, Munzer, Martine, Roda, Laurent, Soler, Christine, Thuret, Isabelle, and Delaunay, Jean

Abstract

Congenital dyserythropoietic anemia type I (CDA I) is a rare disorder of erythropoiesis. The objective of this study was to describe the clinical and laboratory manifestations, the diagnosis procedure, the therapeutic approaches and outcome in CDA I. The 12 patients included belong to the retrospective French Multicenter Study. Clinical and biologic data were compiled. Biologic tests included light and, in some cases, electron microscopy, ektacytometry, and red cell membrane protein electrophoresis. Neonatal manifestations (anemia, early jaundice, and/or splenomegaly) and bone abnormalities were present in 11 of the 12 and 6 of the 12 patients, respectively. CDA I was initially misdiagnosed in four children. By the time of diagnosis, anemia with reticulocytosis lower than expected in a hemolytic anemia was present in all patients. Bone marrow electron microscopy examination revealed characteristic findings in all nine children. Red cell membrane protein 4.1 was reduced in all five children. At least one transfusion was required in 11 of the 12 children. Interferon α2corrected anemia in the three children who received monthly transfusions. CDA I is commonly misdiagnosed in children. It should be sought in patients with unexplained chronic anemia, especially when associated with neonatal manifestations, jaundice, splenomegaly, subnormal or low reticulocytosis, and congenital bone malformations.

Published

2005

9. Genetic complementation reveals a novel human congenital disorder of glycosylation of type II, due to inactivation of the Golgi CMP–sialic acid transporter

Author

Martinez-Duncker, Ivan, Dupré, Thierry, Piller, Véronique, Piller, Friedrich, Candelier, Jean-Jacques, Trichet, Catherine, Tchernia, Gil, Oriol, Rafael, and Mollicone, Rosella

Abstract

We have identified a homozygous G>A substitution in the donor splice site of intron 6 (IVS6 + 1G>A) of the cytidine monophosphate (CMP)–sialic acid transporter gene of Lec2 cells as the mutation responsible for their asialo phenotype. These cells were used in complementation studies to test the activity of the 2 CMP–sialic acid transporter cDNA alleles of a patient devoid of sialyl-Lex expression on polymorphonuclear cells. No complementation was obtained with either of the 2 patient alleles, whereas full restoration of the sialylated phenotype was obtained in the Lec2 cells transfected with the corresponding human wild-type transcript. The inactivation of one patient allele by a double microdeletion inducing a premature stop codon at position 327 and a splice mutation of the other allele inducing a 130–base pair (bp) deletion and a premature stop codon at position 684 are proposed to be the causal defects of this disease. A 4-base insertion in intron 6 was found in the mother and is proposed to be responsible for the splice mutation. We conclude that this defect is a new type of congenital disorder of glycosylation (CDG) of type IIf affecting the transport of CMP–sialic acid into the Golgi apparatus.

Published

2005

10. Genetic complementation reveals a novel human congenital disorder of glycosylation of type II, due to inactivation of the Golgi CMP–sialic acid transporter

Author

Martinez-Duncker, Ivan, Dupré, Thierry, Piller, Véronique, Piller, Friedrich, Candelier, Jean-Jacques, Trichet, Catherine, Tchernia, Gil, Oriol, Rafael, and Mollicone, Rosella

Abstract

We have identified a homozygous G>A substitution in the donor splice site of intron 6 (IVS6 + 1G>A) of the cytidine monophosphate (CMP)–sialic acid transporter gene of Lec2 cells as the mutation responsible for their asialo phenotype. These cells were used in complementation studies to test the activity of the 2 CMP–sialic acid transporter cDNA alleles of a patient devoid of sialyl-Lexexpression on polymorphonuclear cells. No complementation was obtained with either of the 2 patient alleles, whereas full restoration of the sialylated phenotype was obtained in the Lec2 cells transfected with the corresponding human wild-type transcript. The inactivation of one patient allele by a double microdeletion inducing a premature stop codon at position 327 and a splice mutation of the other allele inducing a 130–base pair (bp) deletion and a premature stop codon at position 684 are proposed to be the causal defects of this disease. A 4-base insertion in intron 6 was found in the mother and is proposed to be responsible for the splice mutation. We conclude that this defect is a new type of congenital disorder of glycosylation (CDG) of type IIf affecting the transport of CMP–sialic acid into the Golgi apparatus.

Published

2005

11. Human blood IgM “memory” B cells are circulating splenic marginal zone B cells harboring a prediversified immunoglobulin repertoire

Author

Weller, Sandra, Braun, Moritz C., Tan, Bruce K., Rosenwald, Andreas, Cordier, Corinne, Conley, Mary Ellen, Plebani, Alessandro, Kumararatne, Dinakhanta S., Bonnet, Damien, Tournilhac, Olivier, Tchernia, Gil, Steiniger, Birte, Staudt, Louis M., Casanova, Jean-Laurent, Reynaud, Claude-Agnès, and Weill, Jean-Claude

Abstract

The human peripheral B-cell compartment displays a large population of immunoglobulin M–positive, immunoglobulin D–positive CD27+ (IgM+IgD+CD27+) “memory” B cells carrying a mutated immunoglobulin receptor. By means of phenotypic analysis, complementarity-determining region 3 (CDR3) spectratyping during a T-independent response, and gene-expression profiling of the different blood and splenic B-cell subsets, we show here that blood IgM+IgD+CD27+ cells correspond to circulating splenic marginal zone B cells. Furthermore, analysis of this peripheral subset in healthy children younger than 2 years shows that these B cells develop and mutate their immunoglobulin receptor during ontogeny, prior to their differentiation into T-independent antigen-responsive cells. It is therefore proposed that these IgM+IgD+CD27+ B cells provide the splenic marginal zone with a diversified and protective preimmune repertoire in charge of the responses against encapsulated bacteria.

Published

2004

12. Human blood IgM “memory” B cells are circulating splenic marginal zone B cells harboring a prediversified immunoglobulin repertoire

Author

Weller, Sandra, Braun, Moritz C., Tan, Bruce K., Rosenwald, Andreas, Cordier, Corinne, Conley, Mary Ellen, Plebani, Alessandro, Kumararatne, Dinakhanta S., Bonnet, Damien, Tournilhac, Olivier, Tchernia, Gil, Steiniger, Birte, Staudt, Louis M., Casanova, Jean-Laurent, Reynaud, Claude-Agnès, and Weill, Jean-Claude

Abstract

The human peripheral B-cell compartment displays a large population of immunoglobulin M–positive, immunoglobulin D–positive CD27+(IgM+IgD+CD27+) “memory” B cells carrying a mutated immunoglobulin receptor. By means of phenotypic analysis, complementarity-determining region 3 (CDR3) spectratyping during a T-independent response, and gene-expression profiling of the different blood and splenic B-cell subsets, we show here that blood IgM+IgD+CD27+cells correspond to circulating splenic marginal zone B cells. Furthermore, analysis of this peripheral subset in healthy children younger than 2 years shows that these B cells develop and mutate their immunoglobulin receptor during ontogeny, prior to their differentiation into T-independent antigen-responsive cells. It is therefore proposed that these IgM+IgD+CD27+B cells provide the splenic marginal zone with a diversified and protective preimmune repertoire in charge of the responses against encapsulated bacteria.

Published

2004

13. Abnormal Glycosylation of Red Cell Membrane Band 3 in the Congenital Disorder of Glycosylation Ig

Author

ZDEBSKA, EWA, BADER-MEUNIER, BRIGITTE, SCHISCHMANOFF, PIERRE-OLIVIER, DUPRÉ, THIERRY, SETA, NATHALIE, TCHERNIA, GIL, KOCIELAK, JERZY, AND, and DELAUNAY, JEAN

Abstract

A description is provided of the clinical presentation in an infant of the recently described congenital disorder of glycosylation type Ig, and the changes affecting glycosylation of red cell membrane band 3, the anion exchanger. It has been shown that the condition stems from a homozygous mutation within the human ortholog of yeast ALG12gene, which encodes a dolichol-P-mannoseMan7GlcNAc2-PP-dolichol ,1–6 mannosyltransferase of the endoplasmic reticulum. The clinical phenotype included prominent central and peripheral manifestations in the CNS. Although the infant studied had no anemia, band 3 abnormally separated into two fractions upon electrophoresis. The chemical composition of the glycans of both fractions was analyzed in detail. The fraction with low electrophoretic mobility was moderately hypoglycosylated (by 27) and its mannose content was normal. The fraction with high electrophoretic mobility was deeply carbohydrate deficient (by 64) and had 1 mol mannose in excess but only three residues of N-acetylglucosamine. Glycophorin A was hypoglycosylated with respect to O-linked glycans. Glycosphingolipids of red cells were normal. We suggest that the incomplete biosynthesis of the N-linked glycan of band 3 was largely caused by the persistence of the 3-linked mannose residue on the 6-mannose arm of the trimannosyl moiety of the glycoprotein. It is remarkable that the changes recorded in band 3 have no clinical consequences. Band 3 alteration might serve as an additional indicator (some serum N-glycoproteins of hepatic origin are also indicative) of the congenital disorder of glycosylation type Ig.

Published

2003

14. Abnormal Glycosylation of Red Cell Membrane Band 3 in the Congenital Disorder of Glycosylation Ig

Author

Zdebska, Ewa, Bader-Meunier, Brigitte, Schischmanoff, Pierre-Olivier, Dupré, Thierry, Seta, Nathalie, Tchernia, Gil, Koscielak, Jerzy, and Delaunay, Jean

Abstract

A description is provided of the clinical presentation in an infant of the recently described congenital disorder of glycosylation type Ig, and the changes affecting glycosylation of red cell membrane band 3, the anion exchanger. It has been shown that the condition stems from a homozygous mutation within the human ortholog of yeast ALG12 gene, which encodes a dolichol-P-mannose:Man7GlcNAc2-PP-dolichol a,1–6 mannosyltransferase of the endoplasmic reticulum. The clinical phenotype included prominent central and peripheral manifestations in the CNS. Although the infant studied had no anemia, band 3 abnormally separated into two fractions upon electrophoresis. The chemical composition of the glycans of both fractions was analyzed in detail. The fraction with low electrophoretic mobility was moderately hypoglycosylated (by 27%) and its mannose content was normal. The fraction with high electrophoretic mobility was deeply carbohydrate deficient (by 64%) and had 1 mol mannose in excess but only three residues of N-acetylglucosamine. Glycophorin A was hypoglycosylated with respect to O-linked glycans. Glycosphingolipids of red cells were normal. We suggest that the incomplete biosynthesis of the N-linked glycan of band 3 was largely caused by the persistence of the 3-linked mannose residue on the 6-mannose arm of the trimannosyl moiety of the glycoprotein. It is remarkable that the changes recorded in band 3 have no clinical consequences. Band 3 alteration might serve as an additional indicator (some serum N-glycoproteins of hepatic origin are also indicative) of the congenital disorder of glycosylation type Ig.

Published

2003

15. Nucleolar localization of RPS19 protein in normal cells and mislocalization due to mutations in the nucleolar localization signals in 2 Diamond-Blackfan anemia patients: potential insights into pathophysiology

Author

Da Costa, Lydie, Tchernia, Gil, Gascard, Philippe, Lo, Annie, Meerpohl, Joerg, Niemeyer, Charlotte, Chasis, Joel-Anne, Fixler, Jason, and Mohandas, Narla

Abstract

Ribosomal protein S19 (RPS19) is frequently mutated in Diamond-Blackfan anemia (DBA), a rare congenital hypoplastic anemia. Recent studies have shown that RPS19 expression decreases during terminal erythroid differentiation. Currently no information is available on the subcellular localization of normal RPS19 and the potential effects of various RPS19 mutations on cellular localization. In the present study, using wild-type and mutant RPS19 cDNA, we explored the subcellular distribution of normal and mutant proteins in a fibroblast cell line (Cos-7 cells). RPS19 was detected primarily in the nucleus, and more specifically in the nucleoli, where RPS19 colocalized with the nucleolar protein nucleolin. Using various N-terminal and C-terminal deletion constructs, we identified 2 nucleolar localization signals (NoSs) in RPS19: the first comprising amino acids Met1 to Arg16 in the NH2-terminus and the second comprising Gly120 to Asn142 in the COOH-terminus. Importantly, 2 mutations identified in DBA patients, Val15Phe and Gly127Gln, each of which localized to 1 of the 2 NoS, failed to localize RPS19 to the nucleolus. In addition to their mislocalization, there was a dramatic decrease in the expression of the 2 mutant proteins compared to the wild type. This decrease in protein expression was specific for the mutant RPS19, since expression of other proteins was normal. The present findings enable us to document the nucleolar localization signals in RPS19 and help define the phenotypic consequences of some mutations in RPS19 in DBA.

Published

2003

16. Nucleolar localization of RPS19 protein in normal cells and mislocalization due to mutations in the nucleolar localization signals in 2 Diamond-Blackfan anemia patients: potential insights into pathophysiology

Author

Da Costa, Lydie, Tchernia, Gil, Gascard, Philippe, Lo, Annie, Meerpohl, Joerg, Niemeyer, Charlotte, Chasis, Joel-Anne, Fixler, Jason, and Mohandas, Narla

Abstract

Ribosomal protein S19 (RPS19) is frequently mutated in Diamond-Blackfan anemia (DBA), a rare congenital hypoplastic anemia. Recent studies have shown that RPS19 expression decreases during terminal erythroid differentiation. Currently no information is available on the subcellular localization of normal RPS19 and the potential effects of various RPS19 mutations on cellular localization. In the present study, using wild-type and mutant RPS19 cDNA, we explored the subcellular distribution of normal and mutant proteins in a fibroblast cell line (Cos-7 cells). RPS19 was detected primarily in the nucleus, and more specifically in the nucleoli, where RPS19 colocalized with the nucleolar protein nucleolin. Using various N-terminal and C-terminal deletion constructs, we identified 2 nucleolar localization signals (NoSs) in RPS19: the first comprising amino acids Met1 to Arg16 in the NH2-terminus and the second comprising Gly120 to Asn142 in the COOH-terminus. Importantly, 2 mutations identified in DBA patients, Val15Phe and Gly127Gln, each of which localized to 1 of the 2 NoS, failed to localize RPS19 to the nucleolus. In addition to their mislocalization, there was a dramatic decrease in the expression of the 2 mutant proteins compared to the wild type. This decrease in protein expression was specific for the mutant RPS19, since expression of other proteins was normal. The present findings enable us to document the nucleolar localization signals in RPS19 and help define the phenotypic consequences of some mutations in RPS19 in DBA.

Published

2003

17. Ribosomal protein S19 expression during erythroid differentiation

Author

Da Costa, Lydie, Narla, Goutham, Willig, Thiébaut-Noel, Peters, Luanne L., Parra, Marilyn, Fixler, Jason, Tchernia, Gil, and Mohandas, Narla

Abstract

The gene encoding ribosomal protein S19 (RPS19) has been shown to be mutated in 25% of the patients affected by Diamond-Blackfan anemia (DBA), a congenital erythroblastopenia. As the role of RPS19 in erythropoiesis is still to be defined, we performed studies on RPS19 expression during terminal erythroid differentiation. Comparative analysis of the genomic sequences of human and mouseRPS19genes enabled the identification of 4 conserved sequence elements in the 5′ region. Characterization of transcriptional elements allowed the identification of the promoter in the humanRPS19gene and the localization of a strong regulatory element in the third conserved sequence element. By Northern blot and Western blot analyses of murine splenic erythroblasts infected with the anemia-inducing strain Friend virus (FAV cells), RPS19 mRNA and protein expression were shown to decrease during terminal erythroid differentiation. We anticipate that these findings will contribute to further development of our understanding of the contribution of RPS19 to erythropoiesis.

Published

2003

18. Ribosomal protein S19 expression during erythroid differentiation

Author

Da Costa, Lydie, Narla, Goutham, Willig, Thiébaut-Noel, Peters, Luanne L., Parra, Marilyn, Fixler, Jason, Tchernia, Gil, and Mohandas, Narla

Abstract

The gene encoding ribosomal protein S19 (RPS19) has been shown to be mutated in 25% of the patients affected by Diamond-Blackfan anemia (DBA), a congenital erythroblastopenia. As the role of RPS19 in erythropoiesis is still to be defined, we performed studies on RPS19 expression during terminal erythroid differentiation. Comparative analysis of the genomic sequences of human and mouse RPS19genes enabled the identification of 4 conserved sequence elements in the 5′ region. Characterization of transcriptional elements allowed the identification of the promoter in the human RPS19 gene and the localization of a strong regulatory element in the third conserved sequence element. By Northern blot and Western blot analyses of murine splenic erythroblasts infected with the anemia-inducing strain Friend virus (FAV cells), RPS19 mRNA and protein expression were shown to decrease during terminal erythroid differentiation. We anticipate that these findings will contribute to further development of our understanding of the contribution of RPS19 to erythropoiesis.

Published

2003

19. A splicing alteration of 4.1R pre-mRNA generates 2 protein isoforms with distinct assembly to spindle poles in mitotic cells

Author

Delhommeau, François, Vasseur-Godbillon, Corinne, Leclerc, Philippe, Schischmanoff, Pierre-Olivier, Croisille, Laure, Rince, Patricia, Morinière, Madeleine, Benz, Edward J., Tchernia, Gil, Tamagnini, Gabriel, Ribeiro, Leticia, Delaunay, Jean, and Baklouti, Faouzi

Abstract

The C-terminal region of erythroid cytoskeletal protein 4.1R, encoded by exons 20 and 21, contains a binding site for nuclear mitotic apparatus protein (NuMA), a protein needed for the formation and stabilization of the mitotic spindle. We have previously described a splicing mutation of 4.1R that yields 2 isoforms: One, CO.1, lacks most of exon 20–encoded peptide and carries a missense C-terminal sequence. The other, CO.2, lacks exon 20–encoded C-terminal sequence, but retains the normal exon 21–encoded C-terminal sequence. Knowing that both shortened proteins are expressed in red cells and assemble to the membrane skeleton, we asked whether they would ensure 4.1R mitotic function in dividing cells. We show here that CO.2, but not CO.1, assembles to spindle poles, and colocalizes with NuMA in erythroid and lymphoid mutated cells, but none of these isoforms interact with NuMA in vitro. In microtubule-destabilizing conditions, again only CO.2 localizes to the centrosomes. These data suggest that the stability of 4.1R association with centrosomes requires an intact C-terminal end, either for a proper conformation of the protein, for a direct binding to an unknown centrosome-cytoskeletal network, or for both. We also found that 4.1G, a ubiquitous homolog of 4.1R, is present in mutated as well as control cells and that its C-terminal region binds efficiently to NuMA, suggesting that in fact mitotic spindles host a mixture of the two 4.1 family members. These findings led to the postulate that the coexpression at the spindle poles of 2 related proteins, 4.1R and 4.1G, might reflect a functional redundancy in mitotic cells.

Published

2002

20. A splicing alteration of 4.1R pre-mRNA generates 2 protein isoforms with distinct assembly to spindle poles in mitotic cells

Author

Delhommeau, François, Vasseur-Godbillon, Corinne, Leclerc, Philippe, Schischmanoff, Pierre-Olivier, Croisille, Laure, Rince, Patricia, Morinière, Madeleine, Benz, Edward J., Tchernia, Gil, Tamagnini, Gabriel, Ribeiro, Leticia, Delaunay, Jean, and Baklouti, Faouzi

Abstract

The C-terminal region of erythroid cytoskeletal protein 4.1R, encoded by exons 20 and 21, contains a binding site for nuclear mitotic apparatus protein (NuMA), a protein needed for the formation and stabilization of the mitotic spindle. We have previously described a splicing mutation of 4.1R that yields 2 isoforms: One, CO.1, lacks most of exon 20–encoded peptide and carries a missense C-terminal sequence. The other, CO.2, lacks exon 20–encoded C-terminal sequence, but retains the normal exon 21–encoded C-terminal sequence. Knowing that both shortened proteins are expressed in red cells and assemble to the membrane skeleton, we asked whether they would ensure 4.1R mitotic function in dividing cells. We show here that CO.2, but not CO.1, assembles to spindle poles, and colocalizes with NuMA in erythroid and lymphoid mutated cells, but none of these isoforms interact with NuMA in vitro. In microtubule-destabilizing conditions, again only CO.2 localizes to the centrosomes. These data suggest that the stability of 4.1R association with centrosomes requires an intact C-terminal end, either for a proper conformation of the protein, for a direct binding to an unknown centrosome-cytoskeletal network, or for both. We also found that 4.1G, a ubiquitous homolog of 4.1R, is present in mutated as well as control cells and that its C-terminal region binds efficiently to NuMA, suggesting that in fact mitotic spindles host a mixture of the two 4.1 family members. These findings led to the postulate that the coexpression at the spindle poles of 2 related proteins, 4.1R and 4.1G, might reflect a functional redundancy in mitotic cells.

Published

2002

21. Congenital Dyserythropoietic Anemia, Type 1, in a Polynesian Patient Response to Interferon 2b

Author

Roda, Laurent, Pasche, Jérôme, Fournier, Alain, Terorotua, Vaea, Wickramasinghe, Sunitha N., Tamary, Hannah, Schischmanoff, Pierre Olivier, Tchernia, Gil, and Delaunay, Jean

Abstract

The authors attempted to assess the utility of interferon 2b treatment in a Polynesian girl with a relatively severe form of congenital dyserythropoietic anemia, type 1. The diagnosis was established using routine hematologic and biochemical tests, light and electron microscopy, and electrophoresis of red cell membrane proteins. Response to the treatment was monitored using the blood count and reticulocyte count.

Published

2002

22. Sickle cell disease in Africa

Author

Diallo, Dapa and Tchernia, Gil

Abstract

Africa is the main birthplace of sickle mutations; the number of newborns affected by sickle cell disease is estimated at 200,000 per year. However, because of low family income and public health funding and, to a lesser extent, because of local beliefs about sickle cell disease, overall treatment of patients is still poor and, in some places, inadequate. Efforts to adapt therapeutic options and overcome difficulties are presented and analyzed.

Published

2002

23. Dehydrated hereditary stomatocytosis: a cause of prenatal ascites

Author

Grootenboer, Sabine, Barro, Claire, Cynober, Thérèse, Olivier Schischmanoff, P., Ayoubi, Jean‐Marc, Tchernia, Gil, Delaunay, Jean, and Pons, Jean‐Claude

Abstract

Dehydrated hereditary stomatocytosis (DHS) is a rare congenital hemolytic anemia. We observed that some patients had presented with different prenatal or perinatal forms of edema in some kindreds. Within weeks or months after birth, these exhibited a spontaneous, complete and definitive resorption. We assumed that some DHS patients, who were born without edema before ultrasound was available, might nonetheless have exhibited this during the prenatal period. The present report follows up the first pregnancy in a woman with overt DHS, but not herself having a known history of perinatal effusions. Ultrasound revealed that the fetus displayed ascites that disappeared prior to birth. The neonate had DHS. Prenatal edema must therefore be more frequent in DHS than known until now. DHS is another cause of prenatal edema to be considered in the differential diagnosis. Copyright © 2001 John Wiley & Sons, Ltd.

Published

2001

24. Dehydrated hereditary stomatocytosis: a cause of prenatal ascites

Author

Grootenboer, Sabine, Barro, Claire, Cynober, Thérèse, Schischmanoff, P. Olivier, Ayoubi, Jean-Marc, Tchernia, Gil, Delaunay, Jean, and Pons, Jean-Claude

Abstract

Dehydrated hereditary stomatocytosis (DHS) is a rare congenital hemolytic anemia. We observed that some patients had presented with different prenatal or perinatal forms of edema in some kindreds. Within weeks or months after birth, these exhibited a spontaneous, complete and definitive resorption. We assumed that some DHS patients, who were born without edema before ultrasound was available, might nonetheless have exhibited this during the prenatal period. The present report follows up the first pregnancy in a woman with overt DHS, but not herself having a known history of perinatal effusions. Ultrasound revealed that the fetus displayed ascites that disappeared prior to birth. The neonate had DHS. Prenatal edema must therefore be more frequent in DHS than known until now. DHS is another cause of prenatal edema to be considered in the differential diagnosis. Copyright © 2001 John Wiley & Sons, Ltd.

Published

2001

25. Temporal differences in membrane loss lead to distinct reticulocyte features in hereditary spherocytosis and in immune hemolytic anemia

Author

Da Costa, Lydie, Mohandas, Narla, Sorette, Martin, Grange, Marie-José, Tchernia, Gil, and Cynober, Thérèse

Abstract

Spherocytic red cells with reduced membrane surface area are a feature of hereditary spherocytosis (HS) and some forms of autoimmune hemolytic anemia (AIHA). It is generally assumed that membrane loss in spherocytic red cells occurs during their sojourn in circulation. The structural basis for membrane loss in HS is improper assembly of membrane proteins, whereas in AIHA it is due to partial phagocytosis of circulating red cells by macrophages. A hypothesis was formed that these different mechanisms should lead to temporal differences in surface area loss during red cell genesis and during sojourn in circulation in these 2 spherocytic syndromes. It was proposed that cell surface loss could begin at the reticulocyte stage in HS, whereas surface area loss in AIHA involves only circulating mature red cells. The validity of this hypothesis was established by documenting differences in cellular features of reticulocytes in HS and AIHA. Using a novel technique to quantitate cell surface area, the decreased membrane surface area of both reticulocytes and mature red cells in HS compared with normal cells was documented. In contrast, in AIHA only mature red cells but not reticulocytes exhibited decreased membrane surface area. These data imply that surface area loss in HS, but not in AIHA, is already present at the circulating reticulocyte stage. These findings imply that loss of cell surface area is an early event during genesis of HS red cells and challenge the existing concepts that surface area loss in HS occurs predominantly during the sojourn of mature red cells in circulation.

Published

2001

26. Temporal differences in membrane loss lead to distinct reticulocyte features in hereditary spherocytosis and in immune hemolytic anemia

Author

Da Costa, Lydie, Mohandas, Narla, Sorette, Martin, Grange, Marie-José, Tchernia, Gil, and Cynober, Thérèse

Abstract

Spherocytic red cells with reduced membrane surface area are a feature of hereditary spherocytosis (HS) and some forms of autoimmune hemolytic anemia (AIHA). It is generally assumed that membrane loss in spherocytic red cells occurs during their sojourn in circulation. The structural basis for membrane loss in HS is improper assembly of membrane proteins, whereas in AIHA it is due to partial phagocytosis of circulating red cells by macrophages. A hypothesis was formed that these different mechanisms should lead to temporal differences in surface area loss during red cell genesis and during sojourn in circulation in these 2 spherocytic syndromes. It was proposed that cell surface loss could begin at the reticulocyte stage in HS, whereas surface area loss in AIHA involves only circulating mature red cells. The validity of this hypothesis was established by documenting differences in cellular features of reticulocytes in HS and AIHA. Using a novel technique to quantitate cell surface area, the decreased membrane surface area of both reticulocytes and mature red cells in HS compared with normal cells was documented. In contrast, in AIHA only mature red cells but not reticulocytes exhibited decreased membrane surface area. These data imply that surface area loss in HS, but not in AIHA, is already present at the circulating reticulocyte stage. These findings imply that loss of cell surface area is an early event during genesis of HS red cells and challenge the existing concepts that surface area loss in HS occurs predominantly during the sojourn of mature red cells in circulation.

Published

2001

27. Evidence for linkage of familial Diamond-Blackfan anemia to chromosome 8p23.3-p22 and for non-19q non-8p disease

Author

Gazda, Hanna, Lipton, Jeffrey M., Willig, Thiébaut-Noël, Ball, Sarah, Niemeyer, Charlotte M., Tchernia, Gil, Mohandas, Narla, Daly, Mark J., Ploszynska, Anna, Orfali, Karen A., Vlachos, Adrianna, Glader, Bertil E., Rokicka-Milewska, Roma, Ohara, Akira, Baker, David, Pospisilova, Dagmar, Webber, Allison, Viskochil, David H., Nathan, David G., Beggs, Alan H., and Sieff, Colin A.

Abstract

Diamond-Blackfan anemia (DBA) is a rare congenital hypoplastic anemia that usually presents early in infancy and is inherited in 10% to 20% of cases. Linkage analysis has shown that DBA in many of both dominant and recessive DBA families mapped to chromosome 19q13.2 leading to the cloning of a gene on chromosome 19q13.2 that encodes a ribosomal protein, RPS19. However, subsequently, mutations of theRPS19gene have only been identified in 25% of all patients with DBA. This study analyzed 14 multiplex DBA families, 9 of which had 19q13.2 haplotypes inconsistent with 19q linkage. A genome-wide search for linked loci suggested the presence of a second DBA locus in a 26.4-centimorgan (cM) interval on human chromosome 8p. Subsequently, 24 additional DBA families were ascertained and all 38 families were analyzed with additional polymorphic markers on chromosome 8p. In total, 18 of 38 families were consistent with linkage to chromosome 8p with a maximal LOD score with heterogeneity of 3.55 at D8S277 assuming 90% penetrance. The results indicate the existence of a second DBAgene in the 26.4-cM telomeric region of human chromosome 8p23.3-p22, most likely within an 8.1-cM interval flanked by D8S518 and D8S1825. Seven families were inconsistent with linkage to 8p or 19q and did not reveal mutations in the RPS19gene, suggesting further genetic heterogeneity.

Published

2001

28. Evidence for linkage of familial Diamond-Blackfan anemia to chromosome 8p23.3-p22 and for non-19q non-8p disease

Author

Gazda, Hanna, Lipton, Jeffrey M., Willig, Thiébaut-Noël, Ball, Sarah, Niemeyer, Charlotte M., Tchernia, Gil, Mohandas, Narla, Daly, Mark J., Ploszynska, Anna, Orfali, Karen A., Vlachos, Adrianna, Glader, Bertil E., Rokicka-Milewska, Roma, Ohara, Akira, Baker, David, Pospisilova, Dagmar, Webber, Allison, Viskochil, David H., Nathan, David G., Beggs, Alan H., and Sieff, Colin A.

Abstract

Diamond-Blackfan anemia (DBA) is a rare congenital hypoplastic anemia that usually presents early in infancy and is inherited in 10% to 20% of cases. Linkage analysis has shown that DBA in many of both dominant and recessive DBA families mapped to chromosome 19q13.2 leading to the cloning of a gene on chromosome 19q13.2 that encodes a ribosomal protein, RPS19. However, subsequently, mutations of theRPS19 gene have only been identified in 25% of all patients with DBA. This study analyzed 14 multiplex DBA families, 9 of which had 19q13.2 haplotypes inconsistent with 19q linkage. A genome-wide search for linked loci suggested the presence of a second DBA locus in a 26.4-centimorgan (cM) interval on human chromosome 8p. Subsequently, 24 additional DBA families were ascertained and all 38 families were analyzed with additional polymorphic markers on chromosome 8p. In total, 18 of 38 families were consistent with linkage to chromosome 8p with a maximal LOD score with heterogeneity of 3.55 at D8S277 assuming 90% penetrance. The results indicate the existence of a second DBA gene in the 26.4-cM telomeric region of human chromosome 8p23.3-p22, most likely within an 8.1-cM interval flanked by D8S518 and D8S1825. Seven families were inconsistent with linkage to 8p or 19q and did not reveal mutations in the RPS19 gene, suggesting further genetic heterogeneity.

Published

2001

29. Autoimmune disorders of erythropoiesis

Author

Croisille, Laure, Tchernia, Gil, and Casadevall, Nicole

Abstract

Immune-mediated disorders of erythropoiesis can result in acquired severe anemia, low reticulocyte counts, and bone marrow exhibiting pure red cell aplasia or ineffective erythropoiesis. Erythropoiesis can be suppressed or impaired by humoral or cellular mechanisms. In vitroinhibition of erythroid colony growth by immunoglobulins or lymphocytes can be a strong argument for the immune origin of the disease.

Published

2001

30. Diamond-Blackfan anemia

Author

Costa, Lydie Da, Willig, Thiebaut-Noel, Fixler, Jason, Mohandas, Narla, and Tchernia, Gil

Abstract

Diamond-Blackfan Anemia (DBA) is a rare, congenital hypoplastic anemia often diagnosed early in infancy. A moderate to severe aregenerative anemia is found in association with erythroblastopenia in an otherwise normocellular bone marrow. In 40 of these infants with DBA, diverse developmental abnormalities are also noted. A majority of patients with DBA respond to steroid therapy. Recent molecular studies have identified mutations in the gene encoding the ribosomal protein RPS19 on chromosome 19 in 25 of patients with DBA. In another subset of patients, linkage analysis has identified another locus on chromosome 8p in association with DBA. There are, however, other cases of DBA that are linked neither to the RPS19 gene nor to the locus on 8p, implying the involvement of yet-to-be-defined genetic defects in the cause of DBA. The pathogenesis of DBA is still to be fully defined and it is anticipated that further molecular studies will lead to a better understanding of this complex disease.

Published

2001

31. Long-term evaluation of the beneficial effect of subtotal splenectomy for management of hereditary spherocytosis

Author

Bader-Meunier, Brigitte, Gauthier, Frédéric, Archambaud, Frédérique, Cynober, Thérèse, Miélot, Francoise, Dommergues, Jean-Paul, Warszawski, Josiane, Mohandas, Narla, and Tchernia, Gil

Abstract

Clinical manifestations of hereditary spherocytosis (HS) can be abrogated by splenectomy. However, concerns exist regarding exposure of patients to a lifelong risk for overwhelming infections and, to a lesser extent, to vascular complications after total splenectomy. In the search for alternative treatment modalities, we assessed, in a previous pilot study, the potential usefulness of subtotal splenectomy in a small population of patients. During a mean follow-up period of 3.5 years, subtotal splenectomy was shown to be effective in decreasing the hemolytic rate, while maintaining the phagocytic function of the spleen. In the current study, we evaluated the clinical and biologic features of 40 patients with HS who underwent subtotal splenectomy and were monitored for periods ranging from 1 to 14 years. The beneficial effect of subtotal splenectomy included a sustained decrease in hemolytic rate and a continued maintenance of phagocytic function of the splenic remnant. However, mild-to-moderate hemolysis was persistent and accounted for secondary gallstone formation and aplastic crisis in a small subset of patients. Surprisingly, regrowth of the remnant spleen did not seem to have a major impact on the beneficial outcomes of these individuals. Our results suggest that subtotal splenectomy appears to be a reasonable treatment option for management of patients with HS, especially young children.

Published

2001

32. Long-term evaluation of the beneficial effect of subtotal splenectomy for management of hereditary spherocytosis

Author

Bader-Meunier, Brigitte, Gauthier, Frédéric, Archambaud, Frédérique, Cynober, Thérèse, Miélot, Francoise, Dommergues, Jean-Paul, Warszawski, Josiane, Mohandas, Narla, and Tchernia, Gil

Abstract

Clinical manifestations of hereditary spherocytosis (HS) can be abrogated by splenectomy. However, concerns exist regarding exposure of patients to a lifelong risk for overwhelming infections and, to a lesser extent, to vascular complications after total splenectomy. In the search for alternative treatment modalities, we assessed, in a previous pilot study, the potential usefulness of subtotal splenectomy in a small population of patients. During a mean follow-up period of 3.5 years, subtotal splenectomy was shown to be effective in decreasing the hemolytic rate, while maintaining the phagocytic function of the spleen. In the current study, we evaluated the clinical and biologic features of 40 patients with HS who underwent subtotal splenectomy and were monitored for periods ranging from 1 to 14 years. The beneficial effect of subtotal splenectomy included a sustained decrease in hemolytic rate and a continued maintenance of phagocytic function of the splenic remnant. However, mild-to-moderate hemolysis was persistent and accounted for secondary gallstone formation and aplastic crisis in a small subset of patients. Surprisingly, regrowth of the remnant spleen did not seem to have a major impact on the beneficial outcomes of these individuals. Our results suggest that subtotal splenectomy appears to be a reasonable treatment option for management of patients with HS, especially young children.

Published

2001

33. Pleiotropic syndrome of dehydrated hereditary stomatocytosis, pseudohyperkalemia, and perinatal edema maps to 16q23-q24

Author

Grootenboer, Sabine, Schischmanoff, Pierre-Olivier, Laurendeau, Ingrid, Cynober, The´re`sa, Tchernia, Gil, Dommergues, Jean-Paul, Dhermy, Didier, Bost, Mireille, Varet, Bruno, Snyder, Michael, Ballas, Samir K., Ducot, Be´atrice, Babron, Marie-Claude, Stewart, Gordon W., Gasparini, Paolo, Iolascon, Achille, and Delaunay, Jean

Abstract

Dehydrated hereditary stomatocytosis (DHS) is a rare genetic disorder of red cell permeability to cations, leading to a well-compensated hemolytic anemia. DHS was shown previously to be associated in some families with a particular form of perinatal edema, which resolves in the weeks following birth and, in addition, with pseudohyperkalemia in one kindred. The latter condition was hitherto regarded as the separate entity, “familial pseudohyperkalemia.” DHS and familial pseudohyperkalemia are thought to stem from the same gene, mapping to 16q23-q24. This study screened 8 French and 2 American families with DHS. DHS appeared to be part of a pleiotropic syndrome in some families: DHS + perinatal edema, DHS + pseudohyperkalemia, or DHS + perinatal edema + pseudohyperkalemia. If adequately attended to, the perinatal edema resolved spontaneously after birth. Logistic regression showed that increased mean corpuscular volume and mean corpuscular hemoglobin concentration were the parameters best related to DHS. In patients in whom cation fluxes were investigated, the temperature dependence of the monovalent cation leak exhibited comparable curves. Specific recombination events consistently suggested that the responsible gene lies between markers D16S402 and D16S3037 (16q23-q24). The 95% confidence limits (Zmax =?3.02) spanned almost the complete 9-cM interval between these 2 markers.

Published

2000

34. Pleiotropic syndrome of dehydrated hereditary stomatocytosis, pseudohyperkalemia, and perinatal edema maps to 16q23-q24

Author

Grootenboer, Sabine, Schischmanoff, Pierre-Olivier, Laurendeau, Ingrid, Cynober, Thérèsa, Tchernia, Gil, Dommergues, Jean-Paul, Dhermy, Didier, Bost, Mireille, Varet, Bruno, Snyder, Michael, Ballas, Samir K., Ducot, Béatrice, Babron, Marie-Claude, Stewart, Gordon W., Gasparini, Paolo, Iolascon, Achille, and Delaunay, Jean

Abstract

Dehydrated hereditary stomatocytosis (DHS) is a rare genetic disorder of red cell permeability to cations, leading to a well-compensated hemolytic anemia. DHS was shown previously to be associated in some families with a particular form of perinatal edema, which resolves in the weeks following birth and, in addition, with pseudohyperkalemia in one kindred. The latter condition was hitherto regarded as the separate entity, “familial pseudohyperkalemia.” DHS and familial pseudohyperkalemia are thought to stem from the same gene, mapping to 16q23-q24. This study screened 8 French and 2 American families with DHS. DHS appeared to be part of a pleiotropic syndrome in some families: DHS + perinatal edema, DHS + pseudohyperkalemia, or DHS + perinatal edema + pseudohyperkalemia. If adequately attended to, the perinatal edema resolved spontaneously after birth. Logistic regression showed that increased mean corpuscular volume and mean corpuscular hemoglobin concentration were the parameters best related to DHS. In patients in whom cation fluxes were investigated, the temperature dependence of the monovalent cation leak exhibited comparable curves. Specific recombination events consistently suggested that the responsible gene lies between markers D16S402 and D16S3037 (16q23-q24). The 95% confidence limits (Zmax≥ 3.02) spanned almost the complete 9-cM interval between these 2 markers.

Published

2000

35. La sphe´rocytose he´re´ditaire

Author

Cynober, The´re`se, Mie´lot, Franc¸oise, Schischmanoff, Pierre-Olivier, Delaunay, Jean, and Tchernia, Gil

Abstract

Le globule rouge est de´formable et e´lastique et ces proprie´te´s garantissent sa survie dans la circulation. Dans la sphe´rocytose he´re´ditaire, la plus fre´quente des ane´mies he´molytiques constitutionnelles en Europe, les capacite´s physiques du globule rouge sont limite´es par des anomalies ge´ne´tiques concernant diverses prote´ines du squelette membranaire, le plus souvent l'ankyrine, la bande 3, la prote´ine 4.2, la chai^ne α ou β de la spectrine. L'expression clinique est variable, d'une he´molyse bien compense´e a` une ane´mie se´ve`re. Le diagnostic repose sur des signes cliniques et biologiques d'he´molyse chronique associe´s a` un faisceau d'arguments e´tiologiques : exce`s de globules rouges denses, augmentation de la fragilite´ osmotique, pre´sence de sphe´rocytes sur les frottis sanguins. L'ektacytome´trie en gradient osmolaire permet d'obtenir des courbes de de´formabilite´ typique, quoique non spe´cifiques. L'e´lectrophore`se des prote´ines de la membrane e´rythrocytaire et la ge´ne´tique mole´culaire peuvent identifier la prote´ine et l'anomalie responsables de la maladie. Le traitement essentiel reste la sple´nectomie totale ou, mieux, subtotale.

Published

2000

36. Mutations in Ribosomal Protein S19 Gene and Diamond Blackfan Anemia: Wide Variations in Phenotypic Expression

Author

Willig, Thie´baut-Noe¨l, Draptchinskaia, Natalia, Dianzani, Irma, Ball, Sarah, Niemeyer, Charlotte, Ramenghi, Ugo, Orfali, Karen, Gustavsson, Peter, Garelli, Emanuela, Brusco, Alfredo, Tiemann, Christian, Pe´rignon, Jean Louis, Bouchier, Christiane, Cicchiello, Lawrence, Dahl, Niklas, Mohandas, Narla, and Tchernia, Gil

Abstract

Mutations of the ribosomal protein S19 (RPS19) gene were recently identified in 10 patients with Diamond Blackfan anemia (DBA). To determine the prevalence of mutations in this gene in DBA and to begin to define the molecular basis for the observed variable clinical phenotype of this disorder, the genomic sequence of the 6 exons and the 5' untranslated region of the RPS19 gene was directly assessed in DBA index cases from 172 new families. Mutations affecting the coding sequence of RPS19 or splice sites were found in 34 cases (19.7%), whereas mutations in noncoding regions were found in 8 patients (4.6%). Mutations included nonsense, missense, splice sites, and frameshift mutations. A hot spot for missense mutations was identified between codons 52 and 62 of the RPS19 gene in a new sequence consensus motif W-[YFW]-[YF]-x-R-[AT]-A-[SA]-x-[AL]-R-[HRK]-[ILV]-Y. No correlation between the nature of mutations and the different patterns of clinical expression, including age at presentation, presence of malformations, and therapeutic outcome, could be documented. Moreover, RPS19 mutations were also found in some first-degree relatives presenting only with isolated high erythrocyte adenosine deaminase activity and/or macrocytosis. The lack of a consistent relationship between the nature of the mutations and the clinical phenotype implies that yet unidentified factors modulate the phenotypic expression of the primary genetic defect in families with RPS19 mutations.

Published

1999

37. Pregnancy-Associated Thrombocytopenia Revisited: Assessment and Follow-Up of 50 Cases

Author

Ajzenberg, Nadine, Dreyfus, Marie, Kaplan, Ce´cile, Yvart, Jeannine, Weill, Bernard, and Tchernia, Gil

Abstract

Thrombocytopenia detected during pregnancy addresses the issue of its mechanism and of the possible occurrence of neonatal thrombocytopenia. To further investigate these issues, 50 women referred to us because of thrombocytopenia detected during pregnancy (platelet count, <150 × 109/L), were extensively studied, as well as their offspring. Among these thrombocytopenic women, we used the threshold of 70 × 109/L to differentiate between mild and severe thrombocytopenia. Whatever the severity of thrombocytopenia, we found biological features of an autoimmune disorder in 48% of the women, and chronic thrombocytopenia in 55%. A familial thrombocytopenia was evidenced in 1 case. These 50 women gave birth to 63 neonates, among whom 24 were thrombocytopenic, either at birth or during the first week of life. Neonatal thrombocytopenia could only be predicted in multiparous women, on the basis of previous neonatal thrombocytopenia in older siblings, and/or when maternal platelet life span study, performed before pregnancy, had evidenced an autoimmune thrombocytopenia (AITP)-like profile. These results suggest that, in case of pregnancy-associated thrombocytopenia, familial and immunological studies, combined with postdelivery iterative platelet counts, should be performed to properly characterize the thrombocytopenia. Moreover, the platelet count of the neonate should be carefully assessed at birth and during the following days, a platelet life span study should be performed after delivery in the mother, because these two parameters are likely to bring valuable information regarding the forthcoming pregnancies and the risk of neonatal thrombocytopenia.

Published

1998

38. Hematologic Involvement in Mitochondrial Cytopathies in Childhood: A Retrospective Study of Bone Marrow Smears

Author

Bader-Meunier, Brigitte, Miélot, Françoise, Breton-Gorius, Jeanine, Cramer, Elisabeth, Guichard, Josette, Landrieu, Pierre, Dommergues, Jean-Paul, and Tchernia, Gil

Abstract

We retrospectively analyzed the bone marrow (BM) smears of 10 children with mitochondrial cytopathies. Light microscopic examination showed large and coalescent cytoplasmic vacuolization of some BM precursors in nine cases, including two children with normal peripheral blood counts and four with sideroblastic anemia. BM ultrastructural study showed abnormal mitochondria in the erythroid lineage in all three children studied. Ultrastructural studies in two cases revealed a population of giant mitochondria with abnormal ultrastructure coexisting with a population of normal mitochondria in proerythroblasts, basophil erythroblasts, and less commonly in more mature erythroblasts. In a third child, mitochondria were normal in size with cristae either absent or exhibiting abnormal longitudinal orientation. Heteroplasmic segregation of mitochondria during cell division could account for the finding of a double population of cells on ultrastructural examination. These features suggest that cytologic and ultrastructural BM examination could be useful for the diagnosis of mitochondrial disorders. That is, when large and coalescent cytoplasmic vacuoles of BM precursor cells are present, the clinician should search for mitochondrial cytopathy in a child with unexplained cytopenia(s).

Published

1999

39. Mutations in Ribosomal Protein S19 Gene and Diamond Blackfan Anemia: Wide Variations in Phenotypic Expression

Author

Willig, Thiébaut-Noël, Draptchinskaia, Natalia, Dianzani, Irma, Ball, Sarah, Niemeyer, Charlotte, Ramenghi, Ugo, Orfali, Karen, Gustavsson, Peter, Garelli, Emanuela, Brusco, Alfredo, Tiemann, Christian, Pérignon, Jean Louis, Bouchier, Christiane, Cicchiello, Lawrence, Dahl, Niklas, Mohandas, Narla, and Tchernia, Gil

Abstract

Mutations of the ribosomal protein S19 (RPS19) gene were recently identified in 10 patients with Diamond Blackfan anemia (DBA). To determine the prevalence of mutations in this gene in DBA and to begin to define the molecular basis for the observed variable clinical phenotype of this disorder, the genomic sequence of the 6 exons and the 5′ untranslated region of the RPS19 gene was directly assessed in DBA index cases from 172 new families. Mutations affecting the coding sequence of RPS19 or splice sites were found in 34 cases (19.7%), whereas mutations in noncoding regions were found in 8 patients (4.6%). Mutations included nonsense, missense, splice sites, and frameshift mutations. A hot spot for missense mutations was identified between codons 52 and 62 of the RPS19 gene in a new sequence consensus motif W-[YFW]-[YF]-x-R-[AT]-A-[SA]-x-[AL]-R-[HRK]-[ILV]-Y. No correlation between the nature of mutations and the different patterns of clinical expression, including age at presentation, presence of malformations, and therapeutic outcome, could be documented. Moreover, RPS19 mutations were also found in some first-degree relatives presenting only with isolated high erythrocyte adenosine deaminase activity and/or macrocytosis. The lack of a consistent relationship between the nature of the mutations and the clinical phenotype implies that yet unidentified factors modulate the phenotypic expression of the primary genetic defect in families with RPS19 mutations.

Published

1999

40. Hematologic Involvement in Mitochondrial Cytopathies in Childhood A Retrospective Study of Bone Marrow Smears

Author

BADER-MEUNIER, BRIGITTE, MIÉLOT, FRANÇOISE, BRETON-GORIUS, JEANINE, CRAMER, ELISABETH, GUICHARD, JOSETTE, LANDRIEU, PIERRE, DOMMERGUES, JEAN-PAUL, and TCHERNIA, GIL

Abstract

We retrospectively analyzed the bone marrow (BM) smears of 10 children with mitochondrial cytopathies. Light microscopic examination showed large and coalescent cytoplasmic vacuolization of some BM precursors in nine cases, including two children with normal peripheral blood counts and four with sideroblastic anemia. BM ultrastructural study showed abnormal mitochondria in the erythroid lineage in all three children studied. Ultrastructural studies in two cases revealed a population of giant mitochondria with abnormal ultrastructure coexisting with a population of normal mitochondria in proerythroblasts, basophil erythroblasts, and less commonly in more mature erythroblasts. In a third child, mitochondria were normal in size with cristae either absent or exhibiting abnormal longitudinal orientation. Heteroplasmic segregation of mitochondria during cell division could account for the finding of a double population of cells on ultrastructural examination. These features suggest that cytologic and ultrastructural BM examination could be useful for the diagnosis of mitochondrial disorders. That is, when large and coalescent cytoplasmic vacuoles of BM precursor cells are present, the clinician should search for mitochondrial cytopathy in a child with unexplained cytopenia(s).

Published

1999

41. Pregnancy-Associated Thrombocytopenia Revisited: Assessment and Follow-Up of 50 Cases

Author

Ajzenberg, Nadine, Dreyfus, Marie, Kaplan, Cécile, Yvart, Jeannine, Weill, Bernard, and Tchernia, Gil

Abstract

Thrombocytopenia detected during pregnancy addresses the issue of its mechanism and of the possible occurrence of neonatal thrombocytopenia. To further investigate these issues, 50 women referred to us because of thrombocytopenia detected during pregnancy (platelet count, <150 × 109/L), were extensively studied, as well as their offspring. Among these thrombocytopenic women, we used the threshold of 70 × 109/L to differentiate between mild and severe thrombocytopenia. Whatever the severity of thrombocytopenia, we found biological features of an autoimmune disorder in 48% of the women, and chronic thrombocytopenia in 55%. A familial thrombocytopenia was evidenced in 1 case. These 50 women gave birth to 63 neonates, among whom 24 were thrombocytopenic, either at birth or during the first week of life. Neonatal thrombocytopenia could only be predicted in multiparous women, on the basis of previous neonatal thrombocytopenia in older siblings, and/or when maternal platelet life span study, performed before pregnancy, had evidenced an autoimmune thrombocytopenia (AITP)-like profile. These results suggest that, in case of pregnancy-associated thrombocytopenia, familial and immunological studies, combined with postdelivery iterative platelet counts, should be performed to properly characterize the thrombocytopenia. Moreover, the platelet count of the neonate should be carefully assessed at birth and during the following days, a platelet life span study should be performed after delivery in the mother, because these two parameters are likely to bring valuable information regarding the forthcoming pregnancies and the risk of neonatal thrombocytopenia.

Published

1998

42. Glycophorin C Content of Human Erythrocyte Membrane Is Regulated by Protein 4.1

Author

Reid, Marion E., Takakuwa, Yuichi, Conboy, John, Tchernia, Gil, and Mohandas, Narla

Abstract

Human erythrocyte transmembrane sialoglycoprotein, glycophorin C, plays a functionally important role in maintaining erythrocyte shape and regulating membrane material properties, possibly through its interaction with protein 4.1. Moreover, it has previously been shown that membranes deficient in protein 4.1 exhibit decreased content of glycophorin C. To further define the relationship between protein 4.1 and gylcophorin C, a series of studies were performed using both protein 4.1- and glycophorin C-deficient erythrocytes. Quantitation by flow cytometry showed that the glycophorin C content of cells totally deficient in protein 4.1 was 9% of normal and that of cells partially deficient in protein 4.1 was 44% of normal. Interestingly, while homozygous glycophorin C-deficient cells had no detectable levels of this sialoglycoprotein, cells from obligate heterozygotes had normal levels. Protein 4.1 content of membranes of these glycophorin C-deficient cells was also normal. These data suggest that glycophorin C may be synthesized in excess by erythroid cells and its membrane content regulated by protein 4.1. To investigate if this regulation is due to association between protein 4.1 and glycophorin C, we examined the retention of glycophorin C in membrane skeletons (Triton shells) prepared from normal membranes, protein 4.1-deficient membranes, and protein 4.1-deficient membranes reconstituted with exogenous protein 4.1. Glycophorin C is retained by Triton shells prepared from normal membranes, whereas Triton shells prepared from protein 4.1-deficient membranes are totally devoid of this sialoglycoprotein. However, reconstitution of protein 4.1-deficient membranes with purified protein 4.1 resulted in retention of glycophorin C with the Triton shells. This finding suggests that protein 4.1 is necessary for association of glycophorin C with the membrane skeleton. Furthermore, these data suggest that through its interaction with glycophorin C, protein 4.1 may play a role in regulating the membrane content of this sialoglycoprotein in mature human erythrocytes.

Published

1990

43. Diamond-Blackfan anaemia: genetic homogeneity for a gene on chromosome 19q13 restricted to 1.8 Mb

Author

Gustavsson, Peter, Willig, Thiébaut-Noel, Haeringen, Arie van, Tchernia, Gil, Dianzani, Irma, Donnér, Mikael, Elinder, Göran, Renter, Jan-Inge, Nilsson, Per-Gunnar, Gordon, Laurie, Skeppner, Gunnar, Veer-Korthof, Lisbeth van't, Kreuger, Anders, and Dahl, Niklas

Abstract

Diamond-Blackfan anaemia (DBA; MIM♯205900) is a rare disorder manifested as a pure red-cell aplasia in the neonatal period or in infancy1–3. The clinical hallmark of DBA is a selective decrease in erythroid precursors and anaemia. Other lineages are usually normal and the peripheral white blood cell count is normal. In approximately one-third of cases, the disease is associated with a wide variety of congenital anomalies and malformations3–7. Most cases are sporadic, but 10–20% of them follow a recessive or a dominant inheritance pattern5. A female with DBA and a chromosomal translocation involving chromosome 19q was recently identified8. We undertook a linkage analysis with chromosome 19 markers in multiplex DBA families of Swedish, French, Dutch, Arabic and Italian origin. Significant linkage to chromosome 19q13 was established for dominant and recessive inherited DBA with a peak lod score at D19S197 (Zmax=7.08, θ=0.00). Within this region, a submicroscopic de novo deletion of 3.3 Mb was identified in a patient with DBA. The deletion coincides with the translocation break-point and, together with key recombinations, restricts the DBA gene to a 1.8-Mb region. The results suggest that, despite its clinical heterogeneity, DBA is genetically homogeneous for a gene in 19q13.

Published

1997

44. Identification of Microdeletions Spanning the Diamond-Blackfan Anemia Locus on 19q13 and Evidence for Genetic Heterogeneity

Author

Gustavsson, Peter, Garelli, Emanuela, Draptchinskaia, Natalia, Ball, Sarah, Willig, Thiébaut-Noël, Tentler, Dimitri, Dianzani, Irma, Punnett, Hope H., Shafer, Frank E., Cario, Holger, Ramenghi, Ugo, Glomstein, Anders, Pfeiffer, Rudolf A., Goringe, Andy, Olivieri, Nancy F., Smibert, Elizabeth, Tchernia, Gil, Elinder, Göran, and Dahl, Niklas

Abstract

Diamond-Blackfan anemia (DBA) is a rare pure red-cell hypoplasia of unknown etiology and pathogenesis. A major DBA locus has previously been localized to chromosome 19q13.2. Samples from additional families have been collected to identify key recombinations, microdeletions, and the possibility of heterogeneity for the disorder. In total, 29 multiplex DBA families and 50 families that comprise sporadic DBA cases have been analyzed with polymorphic 19q13 markers, including a newly identified short-tandem repeat in the critical gene region. The results from DNA analysis of 29 multiplex families revealed that 26 of these were consistent with a DBA gene on 19q localized to within a 4.1-cM interval restricted by loci D19S200 and D19S178; however, in three multiplex families, the DBA candidate region on 19q13 was excluded from the segregation of marker alleles. Our results suggest genetic heterogeneity for DBA, and we show that a gene region on chromosome 19q segregates with the disease in the majority of familial cases. Among the 50 families comprising sporadic DBA cases, we identified two novel and overlapping microdeletions on chromosome 19q13. In combination, the three known microdeletions associated with DBA restrict the critical gene region to ∼1 Mb. The results indicate that a proportion of sporadic DBA cases are caused by deletions in the 19q13 region.

Published

1998

45. Role of the Plasmodium falciparumMature-Parasite–Infected Erythrocyte Surface Antigen (MESA/PfEMP-2) in Malarial Infection of Erythrocytes

Author

Magowan, Cathleen, Coppel, Ross L., Lau, Audrey O.T., Moronne, Mario M., Tchernia, Gil, and Mohandas, Narla

Abstract

During intraerythrocytic growth of Plasmodium falciparum, several parasite proteins are transported from the parasite to the erythrocyte membrane, where they bind to membrane skeletal proteins. Mature-parasite-infected erythrocyte surface antigen (MESA) has previously been shown to associate with host erythrocyte membrane skeletal protein 4.1. Using a spontaneous mutant of P falciparumthat has lost the ability to synthesize MESA and 4.1-deficient erythrocytes, we examined growth of MESA(+) and MESA(-) parasites in normal and 4.1-deficient erythrocytes. Viability of MESA(+) parasites was reduced in 4.1-deficient erythrocytes as compared with that for normal erythrocytes, but MESA(-) parasites grew equally well in 4.1-deficient and normal erythrocytes. Cytoadherence of MESAI+)- and MESA (-)-parasitized normal and 4.1-deficient erythrocytes to C32 melanoma cells was similar, indicating that neither protein 4.1 nor MESA plays a major role in cytoadherence of infected erythrocytes. Localization of MESA in normal and 4.1-deficient erythrocytes was examined by confocal microscopy. MESA was diffusely distributed in the cytosol of 4.1-deficient erythrocytes but was membrane-associated in normal erythrocytes. These findings suggest that MESA binding to protein 4.1 plays a major role in intraerythrocytic parasite viability.

Published

1995

46. Frequency of Immune Thrombocytopenia in Newborns: A Prospective Study

Author

Dreyfus, Marie, Kaplan, Cécile, Verdy, Elizabeth, Schlegel, Nicole, Durand-Zaleski, Isabelle, and Tchernia, Gil

Abstract

Thrombocytopenia is a common condition in distressed newborns, but little is known about thrombocytopenia in an unselected cohort of neonates. In an attempt to address this issue, a multicenter prospective study was conducted in three obstetrical wards of AP-HP in Paris. We found the frequency of neonatal thrombocytopenia (<150 × 109/L) to approximate 0.9% (48 of 5,632 appropriate samples). An immune mechanism was likely to be the cause of thrombocytopenia in 10 of the 33 cases studied, implying an incidence of 0.3% of immune neonatal thrombocytopenia in the general population. The frequency of alloimmune thrombocytopenia was 1.5/1,000 liveborn neonates, and 1/1,000 when considering anti–HPA-1a allo-immunization. Because thrombocytopenia, whatever its cause, was often silent and delayed, it appears that the only way to detect neonatal thrombocytopenia in time to prevent its potential disastrous complications would be to perform a systematic neonatal blood sampling for platelet count. All cases of ascertained thrombocytopenia should then be screened for an immune mechanism to enable early detection of autoimmune diseases in mothers and careful monitoring of subsequent pregnancies and deliveries, leading to appropriate prevention of potential severe deleterious effects in the offspring.

Published

1997

47. Differential Use of Protein 4.1 Translation Initiation Sites During Erythropoiesis: Implications for a Mutation-Induced Stage-Specific Deficiency of Protein 4.1 During Erythroid Development

Author

Chasis, Joel Anne, Coulombel, Laure, McGee, Sara, Lee, Gloria, Tchernia, Gil, Conboy, John, and Mohandas, Narla

Abstract

Expression of multiple protein 4.1 isoforms in erythroid progenitors and in a variety of nonerythroid tissues results from alternative pre-mRNA splicing. In 4.1 pre-mRNA, several translation initiation sites are present; synthesis of isoforms larger than 80 kD occurs when an upstream 5′ AUG is spliced in, whereas the 80-kD mature erythroid isoform is produced when the upstream AUG is spliced out and translation is initiated at the downstream AUG. During erythropoiesis, this splicing switch is developmentally regulated. We studied this developmental switch in hereditary elliptocytosis 4.1Alg, in which a DNA rearrangement involving the exon containing the downstream AUG results in loss of coding capacity for the 80-kD 4.1, leading to mature red blood cells deficient in 4.1 with decreased membrane mechanical stability. Analysis of erythroblast RNA by reverse transcriptase-polymerase chain reaction showed that, although it retained the upstream AUG, its coding region was ~2.2 kb, compared with ~2.5 kb of normal 4.1 mRNA, because of the deletion of exons, including the one that codes for the downstream AUG. Immunofluorescent microscopy and Western blot analysis documented protein 4.1 expression in HE 4.1Algerythroblasts. These studies emphasize the crucial role of differentiation-regulated RNA splicing because, within the same erythroid tissue, the HE 4.1Ayaphenotype did not appear until after the differentiation-associated splicing event.

Published

1996

48. Maternal Thrombocytopenia During Pregnancy: Diagnosis and Etiology

Author

Kaplan, Cécile, Forestier, Francois, Dreyfus, Marie, Morel-Kopp, Marie-Christine, and Tchernia, Gil

Published

1995

49. Current concepts and issues in DiamondBlackfan anemia

Author

Willig, ThiébautNoël, Ball, Sarah E., and Tchernia, Gil

Abstract

DiamondBlackfan anemia, although rare, has been the focus of much attention with respect to both its clinical features and the characterization of the in vitroerythroid defect. Despite this, its pathophysiology is still unclear, and the treatment of steroidrefractory patients is still unsatisfactory. The recent chromosomal localization of a gene for familial DiamondBlackfan anemia represents an important step forward toward the elucidation of this disorder. Therapeutic advances will depend on the development of collaborative studies, employing consensus criteria for diagnosis and response to therapy.

Published

1998

50. Erythroblastic andor Megakaryoblastic Leukemia in Down Syndrome

Author

Tchernia, Gil, Lejeune, Francoise, Boccara, Jean-Francoise, Denavit, Marie-Francoise, Dommergues, Jean-Paul, and Bernaudin, Francoise

Abstract

We report here the clinical response to low-dose arabinosyl cytosine (Ara-C) in seven children with Down syndrome (DS) and acute leukemia in which blast cells express markers of erythroid and/or megakaryoblastic lineages. Following an initial course of treatment with Ara-C, complete remission was obtained in all seven patients. Maintenance therapy with Ara-C was continued during complete remission. Four patients subsequently relapsed; the three others are disease-free. Based on these data, we suggest that when conventional therapy is contraindicated by associated malformations, low-dose Ara-C can be used for treating DS patients with erythroblastic or megakaryoblastic leukemia. The aim of this study was to assess the efficacy of low-dose Ara-C in treating megakaryoblastic and/or erythroblastic leukemia associated with DS.

Published

1996