Your search keyword '"Hastie, Nicholas D."' showing total 22 results

1. Mutations in HNF1A result in marked alterations of plasma glycan profile

Author

Thanabalasingham, Gaya, Huffman, Jennifer E., Kattla, Jayesh J., Novokmet, Mislav, Rudan, Igor, Gloyn, Anna L., Hayward, Caroline, Adamczyk, Barbara, Reynolds, Rebecca M., Muzinic, Ana, Hassanali, Neelam, Pucic, Maja, Bennett, Amanda J., Essafi, Abdelkader, Polasek, Ozren, Mughal, Saima A., Redzic, Irma, Primorac, Dragan, Zgaga, Lina, Kolcic, Ivana, Hansen, Torben, Gasperikova, Daniela, Tjora, Erling, Strachan, Mark W.J., Nielsen, Trine, Stanik, Juraj, Klimes, Iwar, Pedersen, Oluf B., Njolstad, Pal R., Wild, Sarah H., Gyllensten, Ulf, Gornik, Olga, Wilson, James F., Hastie, Nicholas D., Campbell, Harry, McCarthy, Mark I., Rudd, Pauline M., Owen, Katharine R., Lauc, Gordan, and Wright, Alan F.

Subjects

Gene mutations -- Physiological aspects -- Research, Diabetes -- Risk factors -- Genetic aspects -- Diagnosis -- Research, Biological markers -- Physiological aspects -- Genetic aspects -- Research, Health

Abstract

A recent genome-wide association study identified hepatocyte nuclear factor 1-α (HNF1A) as a key regulator of fucosylation. We hypothesized that loss-of-function HNF1A mutations causal for maturity-onset diabetes of the young (MODY) would display altered fucosylation of N-linked glycans on plasma proteins and that glycan biomarkers could improve the efficiency of a diagnosis of HNF1A-MODY. In a pilot comparison of 33 subjects with HNF1A-MODY and 41 subjects with type 2 diabetes, 15 of 29 glycan measurements differed between the two groups. The DG9-glycan index, which is the ratio of fucosylated to nonfucosylated triantennary glycans, provided optimum discrimination in the pilot study and was examined further among additional subjects with HNF1A-MODY (n = 188), glucokinase (GCK)-MODY (n = 118), hepatocyte nuclear factor 4-α (HNF4A)-MODY (n = 40), type 1 diabetes (n = 98), type 2 diabetes (n = 167), and nondiabetic controls (n = 98). The DG9-glycan index was markedly lower in HNF1A-MODY than in controls or other diabetes subtypes, offered good discrimination between HNF1A-MODY and both type 1 and type 2 diabetes (C statistic [greater than or equal to]0.90), and enabled us to detect three previously undetected HNF1A mutations in patients with diabetes. In conclusion, glycan profiles are altered substantially in HNF1A-MODY, and the DG9-glycan index has potential clinical value as a diagnostic biomarker of HNF1A dysfunction., Genome-wide association studies are providing novel insights into the genetic architecture and biological basis of many diseases, but immediate translation into clinical practice has been limited. We recently performed a [...]

Published

2013

2. Overgrowth syndromes and pediatric cancers: how many roads lead to IGF2?

Author

Bharathavikru, Ruthrothaselvi and Hastie, Nicholas D.

Abstract

In this Perspective, Bharathavikru and Hastie discuss recent studies published by Hunter et al., investigating the molecular mechanisms by which mutations in the gene encoding the RNA degradation component DIS3L2 lead to Perlman syndrome, and Chen et al., who show that microRNA processing gene mutations in Wilms tumor leads to an increase in the levels of transcription factor PLAG1 that in turn activates IGF2 expression.

Published

2018

3. Deducing the stage of origin of Wilms' tumours from a developmental series of Wt1-mutant mice

Author

Berry, Rachel L., Ozdemir, Derya D., Aronow, Bruce, Lindström, Nils O., Dudnakova, Tatiana, Thornburn, Anna, Perry, Paul, Baldock, Richard, Armit, Chris, Joshi, Anagha, Jeanpierre, Cécile, Shan, Jingdong, Vainio, Seppo, Baily, James, Brownstein, David, Davies, Jamie, Hastie, Nicholas D., and Hohenstein, Peter

Abstract

Wilms' tumours, paediatric kidney cancers, are the archetypal example of tumours caused through the disruption of normal development. The genetically best-defined subgroup of Wilms' tumours is the group caused by biallelic loss of the WT1 tumour suppressor gene. Here, we describe a developmental series of mouse models with conditional loss of Wt1 in different stages of nephron development before and after the mesenchymal-to-epithelial transition (MET). We demonstrate that Wt1 is essential for normal development at all kidney developmental stages under study. Comparison of genome-wide expression data from the mutant mouse models with human tumour material of mutant or wild-type WT1 datasets identified the stage of origin of human WT1-mutant tumours, and emphasizes fundamental differences between the two human tumour groups due to different developmental stages of origin.

Published

2015

4. Genome‐wide association uncovers shared genetic effects among personality traits and mood states

Author

Luciano, Michelle, Huffman, Jennifer E., Arias‐Vásquez, Alejandro, Vinkhuyzen, Anna A.E., Middeldorp, Christel M., Giegling, Ina, Payton, Antony, Davies, Gail, Zgaga, Lina, Janzing, Joost, Ke, Xiayi, Galesloot, Tessel, Hartmann, Annette M., Ollier, William, Tenesa, Albert, Hayward, Caroline, Verhagen, Maaike, Montgomery, Grant W., Hottenga, Jouke‐Jan, Konte, Bettina, Starr, John M., Vitart, Veronique, Vos, Pieter E., Madden, Pamela A.F., Willemsen, Gonneke, Konnerth, Heike, Horan, Michael A., Porteous, David J., Campbell, Harry, Vermeulen, Sita H., Heath, Andrew C., Wright, Alan, Polasek, Ozren, Kovacevic, Sanja B., Hastie, Nicholas D., Franke, Barbara, Boomsma, Dorret I., Martin, Nicholas G., Rujescu, Dan, Wilson, James F., Buitelaar, Jan, Pendleton, Neil, Rudan, Igor, and Deary, Ian J.

Abstract

Measures of personality and psychological distress are correlated and exhibit genetic covariance. We conducted univariate genome‐wide SNP (∼2.5 million) and gene‐based association analyses of these traits and examined the overlap in results across traits, including a prediction analysis of mood states using genetic polygenic scores for personality. Measures of neuroticism, extraversion, and symptoms of anxiety, depression, and general psychological distress were collected in eight European cohorts (n ranged 546–1,338; maximum total n = 6,268) whose mean age ranged from 55 to 79 years. Meta‐analysis of the cohort results was performed, with follow‐up associations of the top SNPs and genes investigated in independent cohorts (n = 527–6,032). Suggestive association (P= 8 × 10−8) of rs1079196 in the FHITgene was observed with symptoms of anxiety. Other notable associations (P< 6.09 × 10−6) included SNPs in five genes for neuroticism (LCE3C, POLR3A, LMAN1L, ULK3, SCAMP2), KIAA0802for extraversion, and NOS1for general psychological distress. An association between symptoms of depression and rs7582472 (near to MGAT5and NCKAP5) was replicated in two independent samples, but other replication findings were less consistent. Gene‐based tests identified a significant locus on chromosome 15 (spanning five genes) associated with neuroticism which replicated (P< 0.05) in an independent cohort. Support for common genetic effects among personality and mood (particularly neuroticism and depressive symptoms) was found in terms of SNP association overlap and polygenic score prediction. The variance explained by individual SNPs was very small (up to 1%) confirming that there are no moderate/large effects of common SNPs on personality and related traits. © 2012 Wiley Periodicals, Inc.

Published

2012

5. WT1 mutations in Meacham syndrome suggest a coelomic mesothelial origin of the cardiac and diaphragmatic malformationsHow to cite this article: Suri M, Kelehan P, O'Neill D, Vadeyar S, Grant J, Ahmed SF, Tolmie J, McCann E, Lam W, Smith S, FitzPatrick D, Hastie ND, Reardon W. 2007. WT1 mutations in Meacham syndrome suggest a coelomic mesothelial origin of the cardiac and diaphragmatic malformations. Am J Med Genet Part A 143A:2312–2320.

Author

Suri, Mohnish, Kelehan, Peter, O'Neill, David, Vadeyar, Shantala, Grant, Judith, Ahmed, S. Faisal, Tolmie, John, McCann, Emma, Lam, Wayne, Smith, Shirley, FitzPatrick, David, Hastie, Nicholas D., and Reardon, William

Abstract

Meacham syndrome is a rare sporadically occurring multiple malformation syndrome characterized by male pseudohermaphroditism with abnormal internal female genitalia comprising a uterus and double or septate vagina, complex congenital heart defect and diaphragmatic abnormalities. We report on eight new cases of this condition, two of whom were shown to have heterozygous missense mutations in the C‐terminal zinc finger domains of WT1: Arg366Cys and Arg394Trp. These data represent clinical and molecular evidence that the WT1 gene plays a central role in normal development of the diaphragm and the proepicardially derived tissues. Identification of WT1 expression in the region of coelomic mesothelium which will form the proepicardium and diaphragm provides a plausible unifying patterning defect in these cases. Interestingly, the Arg366Cys mutation has been previously reported in Denys–Drash syndrome and Arg394Trp mutation has been previously reported in both isolated Wilms tumor and Denys–Drash syndrome. This phenotypic diversity with a single mutation suggests there are other factors modulating all aspects of WT1 function during human development. If genetic modifiers of WT1 can be identified in animal models these become good candidate genes for the cases with Meacham syndrome we report on here where WT1 mutations cannot be identified. © 2007 Wiley‐Liss, Inc.

Published

2007

6. Implication of Wt1in the Pathogenesis of Nephrogenic Failure in a Mouse Model of Retinoic Acid-Induced Caudal Regression Syndrome

Author

Tse, Herman K.W., Leung, Maran B.W., Woolf, Adrian S., Menke, Aswin L., Hastie, Nicholas D., Gosling, John A., Pang, Chi-Pui, and Shum, Alisa S.W.

Abstract

Renal malformations are common human birth defects that sometimes occur in the context of the caudal regression syndrome. Here, we found that exposure of pregnant mice to all-trans retinoic acid, at a time when the metanephros has yet to form, causes a failure of kidney development along with caudal regression. Maternal treatment with Am580 (retinoic acid receptor α agonist) also induced similar patterns of kidney maldevelopment in the fetus. In metanephroi from retinoic acid-treated pregnancies, renal mesenchyme condensed around the ureteric bud but then failed to differentiate into nephrons, instead undergoing involution by fulminant apoptosis to produce a renal agenesis phenotype. Results of whole organ cultures in serum-free medium, and also tissue recombination experiments, showed that the nephrogenic defect was intrinsic to the kidney and that it resided in the metanephric mesenchyme and not the ureteric bud. Renal mesenchyme from control embryos expressed Wilms’ tumor 1(Wt1), but this transcription factor, which is indispensable for kidney development, failed to express in metanephroi of retinoic acid-exposed embryos. Wt1expression and organogenesis were both restored, however, when metanephroi from retinoic acid-treated pregnancies were grown in serum-containing media. Our data illuminate the pathobiology of a severe, teratogen-induced kidney malformation.

Published

2005

7. YAC complementation shows a requirement for Wt1 in the development of epicardium, adrenal gland and throughout nephrogenesis

Author

Moore, Adrian W., McInnes, Lesley, Kreidberg, Jordan, Hastie, Nicholas D., and Schedl, Andreas

Abstract

The Wilms’ Tumour gene WT1 has important functions during development. Knock-out mice were shown to have defects in the urogenital system and to die at embryonic day E13.5, probably due to heart failure. Using a lacZ reporter gene inserted into a YAC construct, we demonstrate that WT1 is expressed in the early proepicardium, the epicardium and the subepicardial mesenchymal cells (SEMC). Lack of WT1 leads to severe defects in the epicardial layer and a concomitant absence of SEMCs, which explains the pericardial bleeding and subsequent embryonic death observed in Wt1 null embryos. We further show that a human-derived WT1 YAC construct is able to completely rescue heart defects, but only partially rescues defects in the urogenital system. Analysis of the observed hypoplastic kidneys demonstrate a continuous requirement for WT1 during nephrogenesis, in particular, in the formation of mature glomeruli. Finally, we show that the development of adrenal glands is also severely affected in partially rescued embryos. These data demonstrate a variety of new functions for WT1 and suggest a general requirement for this protein in the formation of organs derived from the intermediate mesoderm.

Published

1999

8. Telomeric repeat from T. thermophila cross hybridizes with human telomeres

Author

Allshire, Robin C., Gosden, John R., Cross, Sally H., Cranston, Gwen, Rout, Derek, Sugawara, Neal, Szostak, Jack W., Fantes, Peter A., and Hastie, Nicholas D.

Abstract

The ends (telomeres) of eukaryotic chromosomes must have special features to ensure their stability and complete replication. Studies in yeast1–3, protozoa4–6, slime moulds7,8and flagellates8,10show that telomeres are tandem repeats of simple sequences that have a G-rich and a C-rich strand. Mammalian telomeres have yet to be isolated and characterized, although a DNA fragment within 20 kilobases of the telomeres of the short arms of the human sex chromosomes has been isolated11. Recently we showed that a chromosome from the fission yeast Schizosaccharomyces pombe could, in some cases, replicate as an autonomous mini-chromosome in mouse cells12. By extrapolation from other systems1,3,13,14, we reasoned that mouse telomeres could be added to the S. pombe chromosome ends in the mouse cells. On setting out to test this hypothesis we found to our surprise that the telomeric probe used (containing both the S. pombe and Tetrahymena thermophila repeats) hybridized to a series of discrete fragments in normal mouse DNA and DNA from a wide range of eukaryotes. We show here that the sequences hybridizing to this probe are located at the telomeres of most, if not all, human chromosomes and are similar to the Tetrahymena telomeric-repeat component of the probe.

Published

1988

9. Does the Wilms’ tumour suppressor gene, WT1, play roles in both splicing and transcription?

Author

Charlieu, Jean-Paul, Larsson, Stefan, Miyagawa, Kiyoshi, Heyningen, Veronica van, and Hastie, Nicholas D.

Abstract

The Wilms’ tumour suppressor gene (WT1) encodes a protein(s) with 4 zinc fingers that is essential for the development of the genitourinary system. A considerable body of evidence exists to support the idea that WT1 binds DNA and functions as a transcription factor. However, we have shown recently by confocal microscopy and immunoprecipitation studies that a significant proportion of WT1 is associated with splice factors in kidney cell lines, fetal tissues and transfected Cos cells. Different isoforms of WT1 are produced by an alternative splice that leads to the presence or absence of a 3 amino acid insertion (KTS) between zinc fingers 3 and 4. We have shown that these different forms localise differently in the nucleus. The +KTS form mainly localises with splice factors, the −KTS form mainly with transcription factors. Here we propose a model to account for these different localisations. Also, we discuss the possible significance of these findings.

Published

1995

10. Analysis of mRNA populations by cDNA·mRNA hybrid-mediated inhibition of cell-free protein synthesis

Author

Hastie, Nicholas D. and Held, William A.

Abstract

Hybridization of mRNA to its corresponding cDNA was found to specifically inhibit translation of the mRNA in vitro. Using hybridization of globin cDNA to globin mRNA as a model system, we found that equivalent amounts of cDNA were required both for the saturation of the mRNA hybridization and for complete inhibition of globin synthesis. Also, the rate of inactivation of translation was identical to the rate of hybridization and followed the predicted kinetic form. This assay has been applied to the analysis of a set of abundant mRNAs in mouse liver. Hybridization of liver mRNA with total liver cDNA in slight excess to a low C0t value specifically inhibited translation of several major polypeptides. Melting of the hybrids prior to translation restored synthesis of these polypeptides. Moreover, we found that different liver mRNAs are inactivated with different kinetics; the results suggest that the mRNAs for the major urinary polypeptide and for albumin are the most abundant and second most abundant, respectively, in mouse liver. The general applications of this technique are discussed.

Published

1978

11. Human telomeres: fusion and interstitial sites

Author

Hastie, Nicholas D. and Allshire, Robin C.

Abstract

The ends of human chromosomes have been shown recently to resemble those of simple organisms. With this in mind, we discuss the nature and possible significance of rare chromosome fusion events thought to involve telomeres, particularly those fusion events found in some tumours. Also we argue that interstitial telomere-like stretches may be particularly prone to recombination, breakage and fragility.

Published

1989

12. Wilms’ tumour -a case of disrupted development

Author

Miyagawa, Kiyoshi, Kent, Jill, Schedl, Andreas, Heyningen, Veronica van, and Hastie, Nicholas D.

Abstract

Wilms’ tumour is a paediatric kidney malignancy that arises through aberrant differentiation of nephric stem cells. We are studying the role of one Wilms’ tumour predisposition gene, WT1. This is a tumour suppressor gene whose function is required for normal development of the genitourinary system. WT1 encodes a putative transcriptional repressor of the zinc finger family. Here we discuss how one of the normal functions of WT1 may be to suppress myogenesis during kidney development. Furthermore, we describe how we are proposing to use YAC (yeast artificial chromosome) transgenesis to analyse WT1 regulation and function in mice. We also discuss the evolution of the WT1 gene amongst different vertebrate classes and how this may provide insights into genitourinary evolution.

Published

1994

13. Linkage heterogeneity and fragile X

Author

Clayton, John F., Gosden, Christine M., Hastie, Nicholas D., and Evans, H. John

Abstract

A multipoint test of heterogeneity on published data from 57 families with the fragile X syndrome has been undertaken. The hypothesis being tested was that there are two loci coding for fragile X expression, mutations at either of which can produce the phenotype. No predivision of the families was undertaken, as the test used an admixture parameter. Maximum likelihoods of the hypothesis have been calculated and compared with those produced on assuming a single locus for fragile X. The data do not suggest that there are two such loci within the interval between probes 52a and St14. In particular, the large kindred published by Camerino et al. (1983) does not supply convincing evidence of heterogeneity under this test. It is argued that the observed heterogeneity between factor IX and fragile X must have another explanation. There is some evidence for a second locus for fragile X outside the interval noted above; this locus being most probably proximal to these probes. The majority of the data suggesting this result comes from a family published by Davies et al. (1985).

Published

1988

14. Accelerated evolution in the reactive centre regions of serine protease inhibitors

Author

Hill, Robert E. and Hastie, Nicholas D.

Abstract

The serine protease inhibitors (serpins) are a family of proteins that function to control the action of serine proteases in many diverse physiological processes. The functional region or reactive centre of these inhibitors is near the C-terminal end and is an exposed site that acts as a bait for the appropriate serine protease to recognize and covalently bind. The specificity of the inhibitor is determined, at least in part, by a single amino acid that resides in this region at the P1position1. We show here that following a gene duplication event the reactive centres of three related rodent protease inhibitors have diverged from each other at unprecedented rates. This has resulted in proteins with different predicted specificities and we postulate that these changes were fixed by positive darwinian selection and that the most likely selective forces are extrinsic proteases, namely those used by parasites to facilitate their spread throughout the host.

Published

1987

15. Analysis of WAGR deletions and related translocations with gene-specific DNA probes, using FACS-selected cell hybrids

Author

Seawright, Anne, Fletcher, Judy M., Fantes, Judy A., Morrison, Harris, Porteous, David J., Li, Steven S. -L., Hastie, Nicholas D., and Van Heyningen, Veronica

Abstract

We used the fluorescence-activated cell sorter (FACS) to select a series of somatic cell hybrids with deleted or translocated chromosome 11 segregated from its normal homolog. Analysis of these cell hybrids with gene-specific probes and for cell-surface marker expression has allowed us to order the markers and define a smallest region of overlap (SRO) for deletions associated with the WAGR (Wilms' tumor, aniridia, genitourinary abnormalities, and mental retardation) region of chromosome 11. Two translocation breakpoints in 11 p13 (one associated with familial aniridia and one with a sporadic case of congenital renal dysfunction resulting from urethral and ureteral atresia) map within this SRO.

Published

1988

16. A Conditional Lethal Mutant in the Fission Yeast 26 S Protease Subunit mts3+Is Defective in Metaphase to Anaphase Transition (∗)

Author

Gordon, Colin, McGurk, Gordon, Wallace, Mairi, and Hastie, Nicholas D.

Abstract

We have isolated a conditional lethal mutant mts3in the fission yeast Schizosaccharomyces pombewhich at the permissive temperature is resistant to the mitotic poison MBC and at the restrictive temperature is defective in metaphase to anaphase transition. The predicted amino acid sequence of mts3+is 36% identical with the budding yeast gene NIN1. NIN1cloned into a fission yeast expression vector can rescue both mts3temperature-sensitive and null alleles demonstrating that NIN1is the budding yeast homologue of the fission yeast mts3+gene. The phenotype of the mts3null is identical with the mts3ts mutant demonstrating that the phenotype of the mts3ts mutant is due to loss of mts3+function. The deduced amino acid sequences of both mts3+and NIN1show homology to peptide sequences obtained from subunit 14 of the 26 S protease purified from bovine or human cells.

Published

1996

17. Unusual chromosome structure of fission yeast DNA in mouse cells

Author

McManus, John, Perry, Paul, Sumner, Adrian T., Wright, Diana M., Thomson, Eric J., Allshire, Robin C., Hastie, Nicholas D., and Bickmore, Wendy A.

Abstract

Chromosomes from the fission yeast Schizosaccharomyces pombe have been introduced into mouse cells by protoplast fusion. In most cell lines the yeast DNA integrates into a single site within a mouse chromosome and results in striking chromosome morphology at metaphase. Both light and electron microscopy show that the yeast chromosome region is narrower than the flanking mouse DNA. Regions of the yeast insert stain less intensely with propidium iodide than surrounding DNA and bear a morphological resemblance to fragile sites. We investigate the composition of the yeast transgenomes and the modification and chromatin structure of this yeast DNA in mouse cells. We suggest that the underlying basis for the structure we see lies above the level of DNA modification and nucleosome assembly, and may reflect the attachment of the yeast DNA to the rodent cell nucleoskeleton. The yeast integrant replicates late in S phase at a time when G bands of the mouse chromosomes are being replicated, and participates in sister chromatid exchanges at a high frequency. We discuss the implications of these studies to the understanding of how chromatin folding relates to metaphase chromosome morphology and how large stretches of foreign DNA behave when introduced into mammalian cells.

Published

1994

18. Loss of WT1 function leads to ectopic myogenesis in Wilms' tumour

Author

Miyagawa, Kiyoshi, Kent, Jill, Moore, Adrian, Charlieu, Jean-Paul, Little, Melissa H., Williamson, Kathleen A., Kelsey, Anna, Brown, Keith W., Hassam, Shabbir, Briner, Jakob, Hayashi, Yasuhide, Hirai, Hisamaru, Yazaki, Yoshio, Heyningen, Veronica van, and Hastie, Nicholas D.

Published

1998

19. Plasma protease inhibitors in mouse and man: divergence within the reactive centre regions

Author

Hill, Robert E., Shaw, Phillip H., Boyd, Patricia A., Baumann, Heinz, and Hastie, Nicholas D.

Abstract

The plasma protease inhibitors control a wide variety of physiological functions including blood coagulation, complement activation and aspects of the inflammatory response. The inhibitors function by forming a 1:1 complex with a specific protease within the reactive centre region of the inhibitor. Little is known about the evolutionary relationships of these inhibitors. We report here the sequences of cDNAs which represent the C-terminal halves of the two major murine plasma protease inhibitors. One of these, murine α1-antitrypsin, more appropriately called α1-proteinase inhibitor (α1-PI), has diverged from its human counterpart at a vital position in the reactive centre but this has not led to a physiologically significant change in function. Also, we have determined the partial sequence of a recently characterized protein termed contrapsin, which inhibits trypsin-like proteases1,2. We show, surprisingly, that contrapsin is highly homologous to human α1-antichymotrypsin, an inhibitor of chymotrypsin-like proteases. The reactive centre regions of these two inhibitors have diverged considerably, which may account for the differences in specificity. We propose that the genes for contrapsin and human α1-antichymotrypsin are the dependents of a single gene that have evolved since rodent and primate divergence to encode proteins with different functions.

Published

1984

20. High Throughput Isolation and Glycosylation Analysis of IgG–Variability and Heritability of the IgG Glycome in Three Isolated Human Populations

Author

Pui, Maja, Kneevi, Ana, Vidi, Jana, Adamczyk, Barbara, Novokmet, Mislav, Polašek, Ozren, Gornik, Olga, Šupraha-Goreta, Sandra, Wormald, Mark R., Redi, Irma, Campbell, Harry, Wright, Alan, Hastie, Nicholas D., Wilson, James F., Rudan, Igor, Wuhrer, Manfred, Rudd, Pauline M., Josi, Djuro, and Lauc, Gordan

Abstract

All immunoglobulin G molecules carry N-glycans, which modulate their biological activity. Changes in N-glycosylation of IgG associate with various diseases and affect the activity of therapeutic antibodies and intravenous immunoglobulins. We have developed a novel 96-well protein G monolithic plate and used it to rapidly isolate IgG from plasma of 2298 individuals from three isolated human populations. N-glycans were released by PNGase F, labeled with 2-aminobenzamide and analyzed by hydrophilic interaction chromatography with fluorescence detection. The majority of the structural features of the IgG glycome were consistent with previous studies, but sialylation was somewhat higher than reported previously. Sialylation was particularly prominent in core fucosylated glycans containing two galactose residues and bisecting GlcNAc where median sialylation level was nearly 80%. Very high variability between individuals was observed, approximately three times higher than in the total plasma glycome. For example, neutral IgG glycans without core fucose varied between 1.3 and 19%, a difference that significantly affects the effector functions of natural antibodies, predisposing or protecting individuals from particular diseases. Heritability of IgG glycans was generally between 30 and 50%. The individual's age was associated with a significant decrease in galactose and increase of bisecting GlcNAc, whereas other functional elements of IgG glycosylation did not change much with age. Gender was not an important predictor for any IgG glycan. An important observation is that competition between glycosyltransferases, which occurs in vitro, did not appear to be relevant in vivo, indicating that the final glycan structures are not a simple result of competing enzymatic activities, but a carefully regulated outcome designed to meet the prevailing physiological needs.

Published

2011

21. High Throughput Isolation and Glycosylation Analysis of IgG–Variability and Heritability of the IgG Glycome in Three Isolated Human Populations*

Author

Pučić, Maja, Knežević, Ana, Vidič, Jana, Adamczyk, Barbara, Novokmet, Mislav, Polašek, Ozren, Gornik, Olga, Šupraha-Goreta, Sandra, Wormald, Mark R., Redžić, Irma, Campbell, Harry, Wright, Alan, Hastie, Nicholas D., Wilson, James F., Rudan, Igor, Wuhrer, Manfred, Rudd, Pauline M., Josić, Djuro, and Lauc, Gordan

Abstract

All immunoglobulin G molecules carry N-glycans, which modulate their biological activity. Changes in N-glycosylation of IgG associate with various diseases and affect the activity of therapeutic antibodies and intravenous immunoglobulins. We have developed a novel 96-well protein G monolithic plate and used it to rapidly isolate IgG from plasma of 2298 individuals from three isolated human populations. N-glycans were released by PNGase F, labeled with 2-aminobenzamide and analyzed by hydrophilic interaction chromatography with fluorescence detection. The majority of the structural features of the IgG glycome were consistent with previous studies, but sialylation was somewhat higher than reported previously. Sialylation was particularly prominent in core fucosylated glycans containing two galactose residues and bisecting GlcNAc where median sialylation level was nearly 80%. Very high variability between individuals was observed, approximately three times higher than in the total plasma glycome. For example, neutral IgG glycans without core fucose varied between 1.3 and 19%, a difference that significantly affects the effector functions of natural antibodies, predisposing or protecting individuals from particular diseases. Heritability of IgG glycans was generally between 30 and 50%. The individual's age was associated with a significant decrease in galactose and increase of bisecting GlcNAc, whereas other functional elements of IgG glycosylation did not change much with age. Gender was not an important predictor for any IgG glycan. An important observation is that competition between glycosyltransferases, which occurs in vitro, did not appear to be relevant in vivo, indicating that the final glycan structures are not a simple result of competing enzymatic activities, but a carefully regulated outcome designed to meet the prevailing physiological needs.

Published

2011

22. Human telomeres contain at least three types of G-rich repeat distributed non-randomly

Author

Allshire, Robin C, Dempster, Maureen, and Hastie, Nicholas D.

Abstract

Using a combination of different oligonucleotides and restriction enzymes we have examined the gross organisation of repeats within the most distal region of human chromosomes. We demonstrate here that human telomeres do not contain a pure uniform 6 base pair repeat unit but that there are at least three types of repeat. These three types of repeat are present at the ends of most or all human chromosomes. The distribution of each type of repeat appears to be non-random. Each human telomere has a similar arrangement of these repeats relative to the ends of the chromosome. This could reflect differences in the functions that they perform, or might result from the mutation and correction processes occurring at human telomeres. The number of repeat units, the repeat types and arrangement differs at mouse telomeres. Analysing the change in length of the telomeric repeat region between an individuals blood and germline DNA reveals that this is due to variable amounts of the TTAGGG repeat and not the other repeat types. This organisation of repeat units at human telomeres will only be confirmed upon the isolation and sequencing of full length (10—15 kb), intact human telomeres.

Published

1989