Subtelomeric chromosomal rearrangements in a large cohort of unexplained intellectually disabled individuals in Indonesia: A clinical and molecular study

CONTEXT:

Unbalanced subtelomeric chromosomal rearrangements are often associated with intellectual disability (ID) and malformation syndromes. The prevalence of such rearrangements has been reported to be 5-9% in ID populations.

AIMS:

To study the prevalence of subtelomeric rearrangements in the Indonesian ID population.

MATERIALS AND METHODS:

We tested 436 subjects with unexplained ID using multiplex ligation dependent probe amplification (MLPA) using the specific designed sets of probes to detect human subtelomeric chromosomal imbalances (SALSA P070 and P036D). If necessary, abnormal findings were confirmed by other MLPA probe kits, fluorescent in situ hybridization or Single Nucleotide Polymorphism array.

RESULTS:

A subtelomeric aberration was identified in 3.7% of patients (16/436). Details on subtelomeric aberrations and confirmation analyses are discussed.

CONCLUSION:

This is the first study describing the presence of subtelomeric rearrangements in individuals with ID in Indonesia. Furthermore, it shows that also in Indonesia such abnormalities are a prime cause of ID and that in developing countries with limited diagnostic services such as Indonesia, it is important and feasible to uncover the genetic etiology in a significant number of cases with ID.     

Physical Analysis of the Terminal 270 kb of DNA from Human Chromosome 1q

DNA from three 1q44-derived human telomeric yeast artificial chromosome clones was analyzed using physical mapping methods. The smallest clone, yRM2004 (65 kb), corresponded exactly to the distal end of the largest clone, yRM2123 (270 kb). The third clone, yRM2192, overlapped with the proximal end of yRM2123 but not the distal end, suggesting that it is most likely a deletion artifact of a clone originally derived from a 1q telomere fragment. Data from fluorescence in situ hybridization analysis, restriction mapping, and RecA-assisted restriction enzyme cleavage experiments indicate that the molecular clone yRM2123 contains a 260-kb DNA fragment colinear with a genomic telomere-terminal fragment from 1q. yRM2123 contains low-copy subtelomeric and subterminal repeats at its distal end, single-copy DNA more centromerically, and a CG-rich region with homology to mouse DNA. Markers derived from this clone will allow telomeric closure of the physical and genetic linkage maps of human chromosome 1q.     

Stable length polymorphism of up to 260 kb at the tip of the short arm of human chromosome 16

We have completed a long-range restriction map of the terminal region of the short arm of human chromosome 16 (16p13.3) by physically linking a distal genetic locus (alpha-globin) with two recently isolated probes to telomere-associated repeats (TelBam3.4 and TelBam-11). Comparison of 47 chromosomes has revealed major polymorphic length variation in this region: we have identified three alleles in which the alpha-globin genes lie 170 kb, 350 kb, or 430 kb from the telemere. The two most common alleles contain different terminal segments, starting 145 kb distal to the alpha-globin genes. Beyond this boundary these alleles are nonhomologous, yet each contains sequences related to other (different) chromosome termini. This chromosome size polymorphism has probably arisen by occasional exchanges between the subtelomeric regions of nonhomologous chromosomes; analogous length variation is likely to be present at other human telomeres.     

Simple telomeres in a simple animal: absence of subtelomeric repeat regions in the placozoan Trichoplax adhaerens

Simple telomeres were identified in the genome assembly of the basal placozoan animal Trichoplax adhaerens. They have 1–2 kb of TTAGGG telomeric repeats, which are preceded by a subtelomeric region of 1.5–13 kb. Unlike subtelomeric regions in most animals examined, these subtelomeric regions are unique to each telomere.     

An unusually large (CA)n repeat in the region of divergence between subtelomeric alleles of human chromosome 16p.

Previous work has demonstrated discontinuous length variation at the tip of the short arm of human chromosome 16 (16pter) due to polymorphism of the subtelomeric region. We have now analyzed the zone where the two most common subtelomeric alleles (A and B) diverge. This lies 145 kb distal to the alpha-globin genes and comprises a complex segment of approximately 4 kb where there is partial loss of homology between the alleles, preceding the final point of divergence. Most notably, there is an imperfect (CA)n repeat that differs in length with different 16pter alleles and is exceptionally large (n = 250-350) in the case of the A allele and homologous sequences on Xqter and Yqter. Both the (CA)n expansion and the genetic exchange between chromosomes 16, X, and Y seem to have occurred since the divergence of man from other great apes. The occurrence of long (CA)n tracts may be related to the biology of subtelomeric regions.     

The <Emphasis Type="Italic">Tnfrh1</Emphasis> (<Emphasis Type="Italic">Tnfrsf23</Emphasis>) gene is weakly imprinted in several organs and expressed at the trophoblast-decidua interface

Background  

The Tnfrh1 gene (gene symbol Tnfrsf23) is located near one end of a megabase-scale imprinted region on mouse distal chromosome 7, about 350 kb distant from the nearest known imprinting control element. Within 20 kb of Tnfrh1 is a related gene called Tnfrh2 (Tnfrsf22) These duplicated genes encode putative decoy receptors in the tumor necrosis factor (TNF) receptor family. Although other genes in this chromosomal region show conserved synteny with genes on human Chr11p15.5, there are no obvious human orthologues of Tnfrh1 or Tnfrh2.     

Genomic analysis of human chromosome 10q and 4q telomeres suggests a common origin

The subtelomeric region of human chromosome 4q contains the locus for facioscapulohumeral muscular dystrophy (FSHD). The FSHD mutation is a deletion within an array of 3.3-kb tandem repeats (D4Z4). The disease mechanism is unknown but is postulated to involve position effect. A closely related 3.3-kb array on chromosome 10qter, in contrast, is not associated with a disease phenotype. We show here that the 4q homology on chromosome 10 is not confined to the 3.3-kb repeats but extends both proximally (42 kb) and distally to include the telomere. We have also identified the most distal expressed gene on 10q known so far, mapping only 96 kb from the 3.3-kb repeat array. A 4q variant has also been identified; there is 92%nucleotide identity between the two 4q forms, 4qA and 4qB. The 4qter and 10qter forms show homology to other chromosome ends, including 4p, 21q, and 22q, and these regions may represent a relatively common subtelomeric domain.     

Structural and transcriptional analysis of a human subtelomeric repeat

A human subtelomeric repeat (designated as the HST repeat) has been isolated and characterized from a yeast artificial chromosome containing one human telomere. This repeat is located immediately adjacent to the telomeric T2AG3 repeats at the extreme termini of the human chromosomes. The DNA sequence of 3.6 kb of the HST repeat has been determined. The HST repeat spans over 3.6 kb in length, and contains one evolutionarily conserved CpG-rich region. The copy number of the HST repeat varies among telomeres. Genomic hybridization experiments suggest that the HST repeat consists of two distinct segments, and the distal portions of the HST repeat are also distributed elsewhere in the genome. In HeLa cells, the HST repeat sequence appears to be transcribed into a 6 kb polyadenylated RNA and a variety of non-polyadenylated RNA species.     

Checkpoint independence of most DNA replication origins in fission yeast

Background

In budding yeast, the replication checkpoint slows progress through S phase by inhibiting replication origin firing. In mammals, the replication checkpoint inhibits both origin firing and replication fork movement. To find out which strategy is employed in the fission yeast, Schizosaccharomyces pombe, we used microarrays to investigate the use of origins by wild-type and checkpoint-mutant strains in the presence of hydroxyurea (HU), which limits the pool of deoxyribonucleoside triphosphates (dNTPs) and activates the replication checkpoint. The checkpoint-mutant cells carried deletions either of rad3 (which encodes the fission yeast homologue of ATR) or cds1 (which encodes the fission yeast homologue of Chk2).

Results

Our microarray results proved to be largely consistent with those independently obtained and recently published by three other laboratories. However, we were able to reconcile differences between the previous studies regarding the extent to which fission yeast replication origins are affected by the replication checkpoint. We found (consistent with the three previous studies after appropriate interpretation) that, in surprising contrast to budding yeast, most fission yeast origins, including both early- and late-firing origins, are not significantly affected by checkpoint mutations during replication in the presence of HU. A few origins (~3%) behaved like those in budding yeast: they replicated earlier in the checkpoint mutants than in wild type. These were located primarily in the heterochromatic subtelomeric regions of chromosomes 1 and 2. Indeed, the subtelomeric regions defined by the strongest checkpoint restraint correspond precisely to previously mapped subtelomeric heterochromatin. This observation implies that subtelomeric heterochromatin in fission yeast differs from heterochromatin at centromeres, in the mating type region, and in ribosomal DNA, since these regions replicated at least as efficiently in wild-type cells as in checkpoint-mutant cells.

Conclusion

The fact that ~97% of fission yeast replication origins – both early and late – are not significantly affected by replication checkpoint mutations in HU-treated cells suggests that (i) most late-firing origins are restrained from firing in HU-treated cells by at least one checkpoint-independent mechanism, and (ii) checkpoint-dependent slowing of S phase in fission yeast when DNA is damaged may be accomplished primarily by the slowing of replication forks.     

Pneumocystis carinii telomere repeats are composed of TTAGGG and the subtelomeric sequence contains a gene encoding the major surface glycoprotein

We have cloned a telomere and adjacent sequences from rat-derived Pneumocystis carinii using the ability of foreign telomeres to complement a yeast artificial chromosome (YAC) deficient by one telomere in Saccharomyces cerevisiae . Characterization of the cloned DNA in the recombinant YAC demonstrated that it was a chimera of two P. carinii sequences, namely a 13.5 kb fragment of mitochondrial DNA and an 8.3 kb distal portion consisting of subtelomeric DNA. The P. carinii telomere repeat was demonstrated to be TTAGGG, the most common telomere repeat found in organisms from the animal and fungal kingdoms. Karyotype analysis confirmed that this sequence was present on all the P. carinii chromosomes. Sequence adjacent to the telomere repeats was shown by Bal 31 exonuclease digestion to be located at the chromosome ends. Analysis of the subtelomeric fragment revealed homology to the gene encoding the major surface glycoprotein of P. carinii     

Isolation of the human chromosome 22q telomere and its application to detection of cryptic chromosomal abnormalities

A number of human telomeres have been successfully cloned using a modified yeast artificial chromosome (YAC) vector (half-YAC) cloning strategy, but to date, human chromosome 22q has not been identified by this approach. We used an alternative approach of genomic walking, starting from a subtelomeric sequence, TelBam3.4, present on a number of human chromosomes including 22q. This approach was successful in the development of a cosmid contig representing the terminal 140 kb of human chromosome 22q, providing telomeric closure of the genetic and physical maps for 22q. The most distal region of the contig contains subtelomeric repeats which crosshybridize to a number of chromosomes, while the proximal sequences are unique for 22q. The unique sequence cosmid was used as a 22qter-specific probe for fluorescence in situ hybridization (FISH) analysis, which confirmed that this cosmid was distal to the most telomeric marker previously available for chromosome 22. In addition, this cosmid was used to document a 22q terminal deletion that was not detectable by conventional cytogenetic analysis. Unique telomere-specific FISH probes such as this one will have significant diagnostic value in the detection of cryptic deletions and translocations in patients with unexplained mental retardation and other patient populations. Received: 21 November 1995     

Functional characterization of the matrix metalloproteinase-1 cigarette smoke-responsive region and association with the lung health study

Background

Prior studies have demonstrated that the distal 1.5 kb of the MMP-1 promoter is fundamental in directing the induction of the MMP-1 gene by cigarette smoke.

Methods

To characterize the genetic variants in the MMP-1 cigarette smoke-responsive element, deep re-sequencing of this element was performed on DNA samples from participants in the Lung Health Study. Furthermore, evidence of Sp1 binding to the MMP-1 promoter was assessed using chromatin immunoprecipitation assays and the influence of cigarette smoke exposure on this interaction was evaluated in cultured human small airway epithelial cells.

Results

Ten polymorphisms (four novel) were detected in the cigarette smoke-responsive element. Chromatin immunoprecipitation assays to assess the protein-DNA interactions at Sp1 sites in the MMP-1 promoter showed increased binding to the Sp1 sites in the cigarette smoke-responsive element in small airway epithelial cells treated with cigarette smoke extract. In contrast, a Sp1 site outside of the element exhibited the opposite effect. None of the polymorphisms were more prevalent in the fast decliners versus the slow decliners (fast decliners = mean −4.14% decline in FEV1% predicted per year vs. decline in FEV1% predicted per year).

Conclusions

Sequencing analyses identified four novel polymorphisms within the cigarette smoke-responsive element of the MMP-1 promoter. This study identifies functional activity within the cigarette smoke-responsive element that is influenced by cigarette smoke and examines this region of the promoter within a small patient population.     

Fine mapping of LrSV2, a race-specific adult plant leaf rust resistance gene on wheat chromosome 3BS

Key message

Fine mapping permits the precise positioning of genes within chromosomes, prerequisite for positional cloning that will allow its rational use and the study of the underlying molecular action mechanism.

Abstract

Three leaf rust resistance genes were identified in the durable leaf rust resistant Argentinean wheat variety Sinvalocho MA: the seedling resistance gene Lr3 on distal 6BL and two adult plant resistance genes, LrSV1 and LrSV2, on chromosomes 2DS and 3BS, respectively. To develop a high-resolution genetic map for LrSV2, 10 markers were genotyped on 343 F2 individuals from a cross between Sinvalocho MA and Gama6. The closest co-dominant markers on both sides of the gene (3 microsatellites and 2 STMs) were analyzed on 965 additional F2s from the same cross. Microsatellite marker cfb5010 cosegregated with LrSV2 whereas flanking markers were found at 1 cM distal and at 0.3 cM proximal to the gene. SSR markers designed from the sequences of cv Chinese Spring BAC clones spanning the LrSV2 genetic interval were tested on the recombinants, allowing the identification of microsatellite swm13 at 0.15 cM distal to LrSV2. This delimited an interval of 0.45 cM around the gene flanked by the SSR markers swm13 and gwm533 at the subtelomeric end of chromosome 3BS.     

Genetic Polymorphism and Recombination in the Subtelomeric Region of Chromosome 14q

Subtelomeric regions of human chromosomes are the sites of increased meiotic recombination and have a male-to-female recombination ratio that is higher than elsewhere in the genome. We isolated two novel, polymorphic CA repeat markers from the distal part of the immunoglobulin heavy chain gene cluster, approximately 90 and 200 kb from the telomere of chromosome 14q. The 14q telomere was unambiguously located by physical mapping of telomeric YACs andBal31 exonuclease digestion of genomic DNA. We then constructed haplotypes using genotype data from these markers and data from sCAW1 (D14S826) for use as a highly polymorphic genetic marker. Linkage analysis using the 40 pedigree CEPH reference panel and genotype data from these and other loci physically mapped to the terminal 1.5 Mb of chromosome 14q revealed an apparent increase in meiotic recombination within this region, relative to the average rate for the genome. Further, we found that recombination was higher in females than in males, indicating that the subtelomeric region of 14q differs from other human subtelomeric regions.     

Intrachromosomal Amplification,Locus Deletion and Point Mutation in the Aquaglyceroporin AQP1 Gene in Antimony Resistant Leishmania (Viannia) guyanensis

Background

Antimony resistance complicates the treatment of infections caused by the parasite Leishmania.

Methodology/Principal Findings

Using next generation sequencing, we sequenced the genome of four independent Leishmania guyanensis antimony-resistant (SbR) mutants and found different chromosomal alterations including aneuploidy, intrachromosomal gene amplification and gene deletion. A segment covering 30 genes on chromosome 19 was amplified intrachromosomally in three of the four mutants. The gene coding for the multidrug resistance associated protein A involved in antimony resistance was also amplified in the four mutants, most likely through chromosomal translocation. All mutants also displayed a reduced accumulation of antimony mainly due to genomic alterations at the level of the subtelomeric region of chromosome 31 harboring the gene coding for the aquaglyceroporin 1 (LgAQP1). Resistance involved the loss of LgAQP1 through subtelomeric deletions in three mutants. Interestingly, the fourth mutant harbored a single G133D point mutation in LgAQP1 whose role in resistance was functionality confirmed through drug sensitivity and antimony accumulation assays. In contrast to the Leishmania subspecies that resort to extrachromosomal amplification, the Viannia strains studied here used intrachromosomal amplification and locus deletion.

Conclusions/Significance

This is the first report of a naturally occurred point mutation in AQP1 in antimony resistant parasites.     

Organization of telomeric and subtelomeric chromatin in the higher plant Nicotiana tabacum

We have examined the structure and chromatin organization of telomeres in Nicotiana tabacum. In tobacco the blocks of simple telomeric repeats (TTTAGGG)_n are many times larger than in other plants, e.g., Arabidopsis thatiana or tomato. They are resolved as multiple fragments 60–160 kb in size (in most cases 90–130 kb) on pulsed-field gel electrophoresis (PFGE) of restriction endonuclease-digested DNA. The major subtelomeric repeat of the HRS60 family forms large homogeneous blocks of a basic 180 by motif having comparable lengths. Micrococcal nuclease (MNase) cleaves tobacco telomeric chromatin into subunits with a short repeat length of 157±5 bp; the subtelomeric heterochromatin characterized by tandemly repeated sequences of the HRS60 family is cut by MNase with a 180 by periodicity. The monomeric and dimeric particles of telomeric and subtelomeric chromatin differ in sensitivity to MNase treatment: the telomeric particles are readily digested, producing ladders with a periodicity of 7 bp, while the subtelomeric particles appear to be rather resistant to intranucleosomal cleavage. The results presented show apparent similarities in the organization of telomeric chromatin in higher plants and mammals.     

Organization of telomeric and subtelomeric chromatin in the higher plant Nicotiana tabacum

We have examined the structure and chromatin organization of telomeres in Nicotiana tabacum. In tobacco the blocks of simple telomeric repeats (TTTAGGG)_n are many times larger than in other plants, e.g., Arabidopsis thatiana or tomato. They are resolved as multiple fragments 60–160 kb in size (in most cases 90–130 kb) on pulsed-field gel electrophoresis (PFGE) of restriction endonuclease-digested DNA. The major subtelomeric repeat of the HRS60 family forms large homogeneous blocks of a basic 180 by motif having comparable lengths. Micrococcal nuclease (MNase) cleaves tobacco telomeric chromatin into subunits with a short repeat length of 157±5 bp; the subtelomeric heterochromatin characterized by tandemly repeated sequences of the HRS60 family is cut by MNase with a 180 by periodicity. The monomeric and dimeric particles of telomeric and subtelomeric chromatin differ in sensitivity to MNase treatment: the telomeric particles are readily digested, producing ladders with a periodicity of 7 bp, while the subtelomeric particles appear to be rather resistant to intranucleosomal cleavage. The results presented show apparent similarities in the organization of telomeric chromatin in higher plants and mammals.     

An antagonism between the telomeric and polycomb-dependent chromatin at the end of terminally deleted <Emphasis Type="Italic">Drosophila melanogaster</Emphasis> chromosomes

The results obtained at our laboratory during several last years suggest that a specific telomeric chromatin is formed at the terminal regions of Drosophila melanogaster DNA of 4–5 kb in length. In this work, we have studied how the telomeric chromatin influences the Polycomb-dependent repression. Many Polycomb proteins are involved in the formation of subtelomeric chromatin and inhibit the expression of a transgene inserted into it. However, the question on a positive or negative effect of telomeric chromatin on the assembly of subtelomeric protein complexes is yet open. Using a model system, in which a P element inserted upstream of the yellow gene promoter and located at the end of a terminally deleted chromosome can serve as a binding site for Pc-G proteins in the presence of ph ^p1 mutant allele, we have shown that a specific structure of the telomeric chromatin negatively influences the formation of Polycomb-dependent repression complex. These results suggest an antagonism between the telomeric and subtelomeric (Pc-G-dependent) chromatins.