Femke Hannes scite author profile

Background: Genomic disorders are often caused by non-allelic homologous recombination between segmental duplications. Chromosome 16 is especially rich in a chromosome-specific low copy repeat, termed LCR16. Methods and Results: A bacterial artificial chromosome (BAC) array comparative genome hybridisation (CGH) screen of 1027 patients with mental retardation and/or multiple congenital anomalies (MR/MCA) was performed. The BAC array CGH screen identified five patients with deletions and five with apparently reciprocal duplications of 16p13 covering 1.65 Mb, including 15 RefSeq genes. In addition, three atypical rearrangements overlapping or flanking this region were found. Fine mapping by high-resolution oligonucleotide arrays suggests that these deletions and duplications result from non-allelic homologous recombination (NAHR) between distinct LCR16 subunits with >99% sequence identity. Deletions and duplications were either de novo or inherited from unaffected parents. To determine whether these imbalances are associated with the MR/MCA phenotype or whether they might be benign variants, a population of 2014 normal controls was screened. The absence of deletions in the control population showed that 16p13.11 deletions are significantly associated with MR/MCA (p = 0.0048). Despite phenotypic variability, common features were identified: three patients with deletions presented with MR, microcephaly and epilepsy (two of these had also short stature), and two other deletion carriers ascertained prenatally presented with cleft lip and midline defects. In contrast to its previous association with autism, the duplication seems to be a common variant in the population (5/1682, 0.29%). Conclusion: These findings indicate that deletions inherited from clinically normal parents are likely to be causal for the patients’ phenotype whereas the role of duplications (de novo or inherited) in the phenotype remains uncertain. This difference in knowledge regarding the clinical relevance of the deletion and the duplication causes a paradigm shift in (cyto)genetic counselling.

show abstract

Genotype-phenotype correlation in 21 patients with Wolf-Hirschhorn syndrome using high resolution array comparative genome hybridisation (CGH)

Maas

Buggenhout

Hannes

et al. 2007

Journal of Medical Genetics

121

144

View full text Add to dashboard Cite

Nuclear speckles and nucleoli targeting by PIP2–PDZ domain interactions

Mortier

Wuytens

Leenaerts

et al. 2005

EMBO J

106

View full text Add to dashboard Cite

PDZ (Postsynaptic density protein, Disc large, Zona occludens) domains are protein-protein interaction modules that predominate in submembranous scaffolding proteins. Recently, we showed that the PDZ domains of syntenin-1 also interact with phosphatidylinositol 4,5-bisphosphate (PIP 2 ) and that this interaction controls the recruitment of the protein to the plasma membrane. Here we evaluate the general importance of PIP 2 -PDZ domain interactions. We report that most PDZ proteins bind weakly to PIP 2 , but that syntenin-2, the closest homolog of syntenin-1, binds with high affinity to PIP 2 via its PDZ domains. Surprisingly, these domains target syntenin-2 to nuclear PIP 2 pools, in nuclear speckles and nucleoli. Targeting to these sites is abolished by treatments known to affect these PIP 2 pools. Mutational and domain-swapping experiments indicate that high-affinity binding to PIP 2 requires both PDZ domains of syntenin-2, but that its first PDZ domain contains the nuclear PIP 2 targeting determinants. Depletion of syntenin-2 disrupts the nuclear speckles-PIP 2 pattern and affects cell survival and cell division. These findings show that PIP 2 -PDZ domain interactions can directly contribute to subnuclear assembly processes.

show abstract

Fine-grained facial phenotype–genotype analysis in Wolf–Hirschhorn syndrome

Hammond¹,

Hannes

Suttie³

et al. 2011

Eur J Hum Genet

View full text Add to dashboard Cite

Wolf-Hirschhorn syndrome is caused by anomalies of the short arm of chromosome 4. About 55% of cases are due to de novo terminal deletions, 40% from unbalanced translocations and 5% from other abnormalities. The facial phenotype is characterized by hypertelorism, protruding eyes, prominent glabella, broad nasal bridge and short philtrum. We used dense surface modelling and pattern recognition techniques to delineate the milder facial phenotype of individuals with a small terminal deletion (breakpoint within 4p16.3) compared to those with a large deletion (breakpoint more proximal than 4p16.3). Further, fine-grained facial analysis of several individuals with an atypical genotype and/or phenotype suggests that multiple genes contiguously contribute to the characteristic Wolf-Hirschhorn syndrome facial phenotype.

show abstract

Pathogenic significance of deletions distal to the currently described Wolf–Hirschhorn syndrome critical regions on 4p16.3

South

Hannes

Fisch

et al. 2008

American J of Med Genetics Pt C

View full text Add to dashboard Cite

Within recent years, numerous individuals have been identified with terminal 4p microdeletions distal to the currently described critical regions for the Wolf-Hirschhorn syndrome (WHS). Some of these individuals do not display features consistent with WHS whereas others have a clinical phenotype with some overlap to the WHS phenotype. In this review we discuss the genetic and clinical presentation of these cases in an attempt to understand the consequence of monosomy of the genes distal to the proposed critical regions and identify the distal boundary for pathogenic genes involved in components of the WHS phenotype.

show abstract

Duplication of the Wolf-Hirschhorn syndrome critical region causes neurodevelopmental delay

Hannes¹,

Drozniewska²,

Vermeesch³

et al. 2010

European Journal of Medical Genetics

View full text Add to dashboard Cite

Characterizing the functional consequences of haploinsufficiency of NELF-A (WHSC2) and SLBP identifies novel cellular phenotypes in Wolf–Hirschhorn syndrome

Kerzendorfer¹,

Hannes²,

Colnaghi³

et al. 2012

View full text Add to dashboard Cite

Wolf-Hirschhorn syndrome (WHS) is a contiguous gene deletion disorder associated with the distal part of the short arm of chromosome 4 (4p16.3). Employing a unique panel of patient-derived cell lines with differing-sized 4p deletions, we provide evidence that haploinsufficiency of SLBP and/or WHSC2 (NELF-A) contributes to several novel cellular phenotypes of WHS, including delayed progression from S-phase into M-phase, reduced DNA replication in asynchronous culture and altered higher order chromatin assembly. The latter is evidenced by reduced histone-chromatin association, elevated levels of soluble chaperone-bound histone H3 and increased sensitivity to micrococcal nuclease digestion in WHS patient-derived cells. We also observed increased camptothecin-induced inhibition of DNA replication and hypersensitivity to killing. Our work provides a novel pathogenomic insight into the aetiology of WHS by describing it, for the first time, as a disorder of impaired chromatin reorganization. Delayed cell-cycle progression and impaired DNA replication likely underlie or contribute to microcephaly, pre- and postnatal growth retardation, which constitute the core clinical features of WHS.

show abstract

Molecular karyotyping of patients with MCA/MR: the blurred boundary between normal and pathogenic variation

Ravel¹,

Balikova²,

Thienpont³

et al. 2006

Cytogenet Genome Res

View full text Add to dashboard Cite

Molecular karyotyping has revealed that microdeletions/duplications in the human genome are a major cause of multiple congenital anomalies associated with mental retardation (MCA/MR). The identification of a de novo chromosomal imbalance in a patient with MCA/MR is usually considered causal for the phenotype while a chromosomal imbalance inherited from a phenotypically normal parent is considered as a benign variation and not related to the disorder. Around 40% of imbalances in patients with MCA/MR in this series is inherited from a healthy parent and the majority of these appear to be (extremely) rare variants. As some of these contain known disease-causing genes and have also been found to be de novo in MCA/MR patients, this challenges the general view that such familial variants are innocent and of no major phenotypic consequence. Rather, we argue, that human genomes can be tolerant of genomic copy number variations depending on the genetic and environmental background and that different mechanisms play a role in determining whether these chromosomal imbalances manifest themselves.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Femke Hannes

Recurrent reciprocal deletions and duplications of 16p13.11: the deletion is a risk factor for MR/MCA while the duplication may be a rare benign variant

Genotype-phenotype correlation in 21 patients with Wolf-Hirschhorn syndrome using high resolution array comparative genome hybridisation (CGH)

Nuclear speckles and nucleoli targeting by PIP2–PDZ domain interactions

Fine-grained facial phenotype–genotype analysis in Wolf–Hirschhorn syndrome

Pathogenic significance of deletions distal to the currently described Wolf–Hirschhorn syndrome critical regions on 4p16.3

Duplication of the Wolf-Hirschhorn syndrome critical region causes neurodevelopmental delay

Characterizing the functional consequences of haploinsufficiency of NELF-A (WHSC2) and SLBP identifies novel cellular phenotypes in Wolf–Hirschhorn syndrome

Molecular karyotyping of patients with MCA/MR: the blurred boundary between normal and pathogenic variation

Contact Info

Product

Resources

About