Analphoid marker chromosome in a patient with hyper-IgE syndrome, autism, and mild mental retardation

Bridging the gap: neurodevelopmental disorder risks in inborn errors of immunity

PURPOSE OF REVIEW

The aim of this review is to examine published reports of neurodevelopmental phenotypes in patients with inborn errors of immunity (IEI). We briefly discuss potential interactions between the immune and the central nervous system and the implications of this crosstalk for current clinical management guidelines.

RECENT FINDINGS

An increasing number of reports have described neurodevelopmental disorders (NDDs) comorbid with immune-mediated signs. However, the prevalence of this association in IEIs remains unknown.

SUMMARY

IEIs comprise a group of clinically heterogeneous disorders associated with a number of nonimmune comorbidities. Although certain neurological conditions such as microcephaly are recognized as associated features of some IEIs, NDDs are less well described. We reviewed published clinical descriptions of IEIs and found a number of comorbid NDDs in these patients, including autism spectrum disorder (ASD), behavioral deficits, and intellectual disability. Given the lack of uniform assessments for NDDs, we suspect they may be underdiagnosed in IEIs. As NDDs manifest early and can result in life-long cognitive and emotional deficits, which diminish quality of life and increase healthcare utilization, we hope to elucidate relevant pathomechanisms and raise clinician awareness of these comorbidities so appropriate and timely interventions are sought.

Staphylococcus aureus and Hyper-IgE Syndrome

Hyper-immunoglobulin E syndrome (HIES) is a primary immunodeficiency disease characterized by recurrent Staphylococcus aureus (S. aureus) infections, eczema, skeletal abnormalities and high titers of serum immunoglobulin E. Although the genetic basis of HIES was not known for almost a half century, HIES most frequently exhibits autosomal dominant trait that is transmitted with variable expressivity. Careful genetic studies in recent years identified dominant-negative mutations in human signal transducer and activator of transcription 3 (STAT3) gene as the cause of sporadic and dominant forms of HIES. The STAT3 mutations were localized to DNA-binding, SRC homology 2 (SH2) and transactivating domains and disrupted T helper 17 (T_H17) cell differentiation and downstream expression of T_H17 cytokines IL-17 and IL-22. Deficiency of IL-17 and IL-22 in turn is responsible for suboptimal expression of anti-staphylococcal host factors, such as neutrophil-recruiting chemokines and antimicrobial peptides, by human keratinocytes and bronchial epithelial cells. T_H17 cytokines deficiency thereby explains the recurrent staphylococcal lung and skin infections of HIES patients.

A Marfan syndrome-like phenotype caused by a neocentromeric supernumerary ring chromosome 15

Small supernumerary marker chromosomes (sSMC) are abnormal chromosomes that cannot be characterized by standard banding cytogenetic techniques. A minority of sSMC contain a neocentromere, which is an ectopic centromere lacking the characteristic alpha-satellite DNA. The phenotypic manifestations of sSMC and neocentromeric sSMC are variable and range from severe intellectual disability and multiple congenital anomalies to a normal phenotype. Here we report a patient with a diagnosis of Marfan syndrome and infertility found to have an abnormal karyotype consisting of a chromosome 15 deletion and a ring-type sSMC likely stabilized by a neocentromere derived via a mechanism initially described by Barbara McClintock in 1938. Analysis of the sSMC identified that it contained the deleted chromosome 15 material and also one copy of FBN1, the gene responsible for Marfan syndrome. We propose that the patient's diagnosis arose from disruption of the FBN1 allele on the sSMC. To date, a total of 29 patients have been reported with an sSMC derived from a chromosomal deletion. We review these cases with a specific focus on the resultant phenotypes and note significant difference between this class of sSMC and other types of sSMC. Through this review we also identified a patient with a clinical diagnosis of neurofibromatosis type 1 who lacked a family history of the condition but was found to have a chromosome 17-derived sSMC that likely contained NF1 and caused the patient's disorder. We also review the genetic counseling implications and recommendations for a patient or family harboring an sSMC. © 2016 Wiley Periodicals, Inc.

The Hyperimmunoglobulinemia E Syndromes: A Literature Review

The hyper-immunoglobulin E (IgE) syndromes (HIES) are primary immunodeficiencies characterized by the recurrent staphylococcal abscesses, recurrent pneumonia and highly elevated serum IgE levels. There are two forms of HIES: a dominant form (AD-HIES) and a recessive form (AR-HIES). AD form of HIES is caused by mutations in STAT3 and the AR form is caused by mutations in DOCK8 and TYK2. These syndromes have different clinical presentations and outcomes. AD-HIES is a multisystem disorder that includes abnormalities of the skin, lungs, musculo-skeletal system and dental system. In contrast, these symptoms in patients with AR-HIES are missing. AR-HIES patients have severe viral infections and may develop neurological complications. This review article discusses the clinical presentation and laboratory findings in both forms of HIES, as well as the establishment of diagnose, inheritance, molecular genetics and immunological abnormalities of HIES.

Autism spectrum disorders: the quest for genetic syndromes

Autism spectrum disorders (ASD) are a heterogeneous group of neurodevelopmental disabilities with various etiologies, but with a heritability estimate of more than 90%. Although the strong correlation between autism and genetic factors has been long established, the exact genetic background of ASD remains unclear. A number of genetic syndromes manifest ASD at higher than expected frequencies compared to the general population. These syndromes account for more than 10% of all ASD cases and include tuberous sclerosis, fragile X, Down, neurofibromatosis, Angelman, Prader-Willi, Williams, Duchenne, etc. Clinicians are increasingly required to recognize genetic disorders in individuals with ASD, in terms of providing proper care and prognosis to the patient, as well as genetic counseling to the family. Vice versa, it is equally essential to identify ASD in patients with genetic syndromes, in order to ensure correct management and appropriate educational placement. During investigation of genetic syndromes, a number of issues emerge: impact of intellectual disability in ASD diagnoses, identification of autistic subphenotypes and differences from idiopathic autism, validity of assessment tools designed for idiopathic autism, possible mechanisms for the association with ASD, etc. Findings from the study of genetic syndromes are incorporated into the ongoing research on autism etiology and pathogenesis; different syndromes converge upon common biological backgrounds (such as disrupted molecular pathways and brain circuitries), which probably account for their comorbidity with autism. This review paper critically examines the prevalence and characteristics of the main genetic syndromes, as well as the possible mechanisms for their association with ASD.

Human ring chromosomes and small supernumerary marker chromosomes-do they have telomeres?

Ring chromosomes and small supernumerary marker chromosomes (sSMC) are enigmatic types of derivative chromosomes, in which the telomeres are thought to play a crucial role in their formation and stabilization. Considering that there are only a few studies that evaluate the presence of telomeric sequences in ring chromosomes and on sSMC, here, we analyzed 14 ring chromosomes and 29 sSMC for the presence of telomeric sequences through fluorescence in situ hybridization (FISH). The results showed that ring chromosomes can actually fall into two groups: the ones with or without telomeres. Additionally, telomeric signals were detectable at both ends of centric and neocentric sSMC with inverted duplication shape, as well as in complex sSMC. Apart from that, generally both ring- and centric minute-shaped sSMC did not present telomeric sequences neither detectable by FISH nor by a second protein-directed immunohistochemical approach. However, the fact that telomeres are absent does not automatically mean that the sSMC has a ring shape, as often deduced in the previous literature. Overall, the results obtained by FISH studies directed against telomeres need to be checked carefully by other approaches.

Neocentromeres: new insights into centromere structure, disease development, and karyotype evolution

Since the discovery of the first human neocentromere in 1993, these spontaneous, ectopic centromeres have been shown to be an astonishing example of epigenetic change within the genome. Recent research has focused on the role of neocentromeres in evolution and speciation, as well as in disease development and the understanding of the organization and epigenetic maintenance of the centromere. Here, we review recent progress in these areas of research and the significant insights gained.

The hyper-IgE syndrome is not caused by a microdeletion syndrome

The hyper-immunoglobulin E syndrome (HIES) is a rare primary immunodeficiency characterized by recurrent infections, elevated serum IgE-levels, and involvement of the soft- and bony tissues. We speculated that this complex disease may be caused by a microdeletion syndrome. We therefore analyzed 30 sporadic HIES patients for the presence of chromosomal imbalances using Affymetrix 50k XbaI and 23 of the 30 patients with the higher-resolution 250k StyI SNP mapping arrays. We detected only eight different copy number alterations in six patients with the 50k approach, and seven of these presented known polymorphic regions not associated with disease. However, one patient showed a unique gain on chromosome 20p. 250k array analysis identified this gain as a rare polymorphism segregating in the patient's family, but not associated with the HIES phenotype. In addition, 265 known and novel copy number variants (CNVs) were identified with the 250k arrays, but no recurrent imbalances reminescent of a microdeletion syndrome were found. We aligned the identified CNVs with loci that have been associated with HIES or phenotypically overlapping syndromes. Doing so, a 2-Mb deletion spanning the PEPD gene on 19q13.11 was identified on one allele of one patient. Homozygous mutations in PEPD are responsible for the autosomal-recessive prolidase deficiency which resembles HIES in some aspects. Sequencing of the healthy allele, however, revealed a wild-type sequence. In summary, our results suggest that HIES is not likely to be a microdeletion syndrome.

Hyperimmunoglobulin E syndrome: Two cases and a review of the literature

Hyperimmunoglobulin E syndrome (HIES) is a rare immunodeficiency associated with elevated serum IgE levels, eczematous skin, recurrent cutaneous infections, and distinctive musculoskeletal features. We report two cases seen at our institution and review the current literature. Patient 1 was an 18-month-old African American boy with recurrent staphylococcal cold abscesses, pneumonia, and bacteremia. He had severely eczematous skin, ultimately complicated by eczema herpeticum. After treatment of systemic infections with culture-directed antibiotics, a brief course of cyclosporine, 5 mg/kg, improved the dermatitis and allowed transition to long-term therapy with oral trimethoprim-sulfamethoxazole. Patient 2 was a 15-year-old Caucasian boy with long-standing HIES. He has been maintained on a regimen of interferon gamma injections given 3 times weekly and monthly intravenous immunoglobulin since the age of 3 years, prophylactic antibiotics, and low-dose fluconazole. He has occasional episodes of cold abscesses and sinusitis, but has had excellent control since institution of this regimen and has not experienced any adverse effects.

No Indication for a Defect in Toll-Like Receptor Signaling in Patients with Hyper-IgE Syndrome

Hyper-IgE syndrome is a rare primary immunodeficiency of unknown etiology characterized by recurrent infections of the skin and respiratory system, chronic eczema, elevated total serum IgE, and a variety of associated skeletal symptoms. Recent reports about susceptibility to pyogenic bacterial infections and high IgE levels in patients and animals with defects in toll-like receptor (TLR) signaling pathways prompted us to search for TLR signaling defects as an underlying cause of hyper-IgE syndrome. Blood samples from six patients with hyper-IgE syndrome were analyzed for serum cytokine levels, intracellular cytokine production in T cells after stimulation with PMA/ionomycin, and cytokine production from peripheral blood mononuclear cells stimulated by TLR ligands and bacterial products including LPS (TLR4), peptidoglycan (TLR2), PolyIC (TLR3), R848 (TLR7/8), CpG-A, and CpG-B (TLR9), zymosan and heat killed Listeria monocytogenes. All results were compared to data from healthy controls. A reduction in IFN-gamma, IL-2, and TNF-alpha producing T cells after PMA stimulation suggested a reduced inflammatory T cell response in patients with hyper-IgE syndrome. Increased serum levels of IL-5 indicated a concomitant Th2 shift. However, normal production of cytokines (TNF-alpha, IL-6, IL-10, IFN-alpha, IP-10) and upregulation of CD86 on B cells and monocytes after TLR stimulation made a defect in TLR signaling pathways highly unlikely. In summary, our data confirmed an imbalance in T cell responses of patients with hyper-IgE syndrome as previously described but showed no indication for an underlying defect in toll-like receptor signaling.

Interstitial deletion 11(p11.12p11.2) and analphoid marker formation results in inherited Potocki-Shaffer syndrome

We report a family with inherited Potocki-Shaffer syndrome. The phenotypically normal mother has an interstitial deletion of 11(p11.12p11.2) with neocentric marker chromosome formation. The marker chromosome contains the deleted material on 11p11.2 and is likely a ring. The patient inherited a maternal deleted chromosome 11 but not the marker chromosome, thus resulting in an unbalanced karyotype along with the phenotype of Potocki-Shaffer syndrome. The deleted region in our case-11p11.12p11.2-is a newly reported site of constitutional neocentromere formation. This is also the first report describing deletion of 11p11.12-p11.2 and neocentromere formation resulting in inherited Potocki-Shaffer syndrome.

Chromosomal dynamics of human neocentromere formation

Neocentromeres are rare human chromosomal aberrations where a new centromere has formed in a previously non-centromeric location. The emergence of new centromeres on a chromosome that already contains an endogenous centromere would be a highly deleterious event which would lead to dicentricity and mitotic instability. Nonetheless, neocentromere formation appears to provide a mechanism for the acquisition of a new centromere. Neocentromeres are most often observed on chromosomal arm fragments that have separated from an endogenous centromere, and therefore actually lead to mitotic stability of what would have been an acentric fragment. Neocentromeres have recently also been observed on apparently unrearranged chromosomes where the endogenous centromere has been inactivated. Furthermore, the process of centromere repositioning during primate chromosomal evolution may depend on the acquisition and subsequent fixation of neocentromeres. This remarkable plasticity in the position of centromeres has important implications for human cytogenetics and chromosome evolution, and provides an opportunity to further our understanding of the process of centromere formation and structure.

Hyper-IgE syndromes

The hyper-immunoglobulin E (IgE) syndromes (HIES) are primary immunodeficiencies characterized by the clinical triad of recurrent staphylococcal abscesses, recurrent cyst-forming pneumonia, and an elevated serum IgE level of >2000 IU/ml. Most cases are sporadic; however, multiplex families displaying autosomal dominant (AD) and autosomal recessive (AR) inheritance have been described. In most sporadic and AD cases, the HIES clinical triad is part of a multisystem disorder including abnormalities of the soft tissue, skeletal, and dental systems. In contrast, those with AR-HIES have severe molluscum contagiosum and other viral infections and may develop severe neurological complications. Unlike patients with sporadic HIES and AD-HIES, those with AR-HIES lack skeletal or dental involvement and do not develop lung cysts. Additional variants of HIES are discussed in this review. The etiology of HIES is still unresolved. Recent research points toward a skewed T helper 1 (Th1) cell/Th2 cell ratio and the involvement of chemokines. Therapy for HIES is directed at prevention and management of infections by using sustained systemic antibiotics and antifungals along with topical therapy for eczema and drainage of abscesses. Anti-staphylococcal antibiotic prophylaxis is useful. Interferons, immunoglobulin supplementation, or low-dose cyclosporine A have been reported to benefit selected patients, but they are not generally indicated.

Class II neocentromeres: a putative common neocentromere site in band 4q21.2

Neocentromeres are rare functional centromeres formed within noncentromeric chromosomal regions. We report the finding of a neocentromere in a very rare class II analphoid chromosome. This neocentromere was detected prenatally in a fetus with the karyotype: 47,XY,del(4)(p15.3q21.1),+r(4)(p15.3q21.1).ish del(4)(D4S3360+,WHS+,D4Z1-,4qsubtel+),r(4)(D4S3360-,WHS-,D4Z1+,4qsubtel-)de novo. The fetus was missing one normal chromosome 4 but had a ring chromosome, consisting of the pericentromeric region of chromosome 4, and a deleted chromosome 4, the reciprocal product of the ring formation. In situ hybridization established that the chromosome 4 pericentromeric heterochromatin was located on the ring chromosome, while the Wolf-Hirschhorn critical region and chromosome 4 subtelomeric regions were present on the deleted chromosome. A C-band-negative constriction was observed in band 4q21.2 of the deleted chromosome 4, indicating that a neocentromere had been formed in this band, allowing stable segregation during cell division. This chromosome abnormality was detected in cultured amniocytes from a 20-week pregnancy presenting with intrauterine growth retardation and echogenic bowel. The pregnancy resulted in intrauterine death at 33-34 weeks. Despite the apparently balanced karyotype, the fetus is likely to have been phenotypically impaired due to disruption of genes by the neocentromere, rearrangement and ring chromosome formation. There has been one previous report of neocentromere formation in band 4q21; the observation presented here might refine a putative common neocentromeric site to sub-band 4q21.2.

Familial immunodeficiency with cutaneous vasculitis, myoclonus, and cognitive impairment

We report a family with five of six siblings (including identical male twins) with a novel constellation of immunologic and neurologic impairments. Affected subjects experienced severe dermatitis starting around 9 months of age, Stevens-Johnson syndrome in early childhood, and extreme elevations of IgE (9,400-43,000 IU/ml). The oldest sibling died at age 27 of respiratory failure following recurrent, severe pneumonias. All four surviving affected siblings have had chronic sinusitis or otitis, cutaneous vasculitis, and recurrent bacterial pneumonias leading to bronchiectasis. Neurologic features in all five siblings included oral motor deficits, dysarthria, low average IQ (70-80), and essential myoclonus. Four had documented ataxia and/or mild sensory loss with increased patellar but diminished ankle reflexes. The nonconsanguineous parents and one sibling had none of the above findings, consistent with autosomal recessive inheritance. This primary immunodeficiency with distinctive neurological impairments represents a new syndrome. Published 2003 Wiley-Liss, Inc.

Hyper immunoglobulin-E syndrome: a case with chronic ear draining mimicking polypoid otitis media

The hyper-IgE syndrome is a rare, complex immunoregulatory disorder characterized by pruritic dermatitis, recurrent staphylococcus skin abscesses and extremely elevated levels of IgE in serum. In this report, an 8-year-old girl with hyper-IgE syndrome is presented. She had pruritic dermatitis and skin abscesses on her extremities and scalp. Discharge and granulation tissue in right external ear canal were recognized in otorhinolaryngologic examination. Cultures of the suppuration of the external ear canal yielded S. aureus. Biopsy of the lesion was reported as granulation tissue. Local treatment of the ear canal was performed with ear wick soaked with steroid and antibiotic solutions two times per day.

Prenatal diagnosis of a karyotypically normal pregnancy in a mother with a supernumerary neocentric 13q21 -->13q22 chromosome and balancing reciprocal deletion

An adult female patient with a history of miscarriages was found to be carrying a stable supernumerary chromosome. The patient also carried a reciprocal paracentric deletion in chromosome 13q21/22. Microdissection and reverse fluorescence in situ hybridization FISH revealed that this supernumerary chromosome was derived from region 13q21 --> 13q22. The presence of a neocentromere on this supernumerary chromosome was confirmed by the absence of detectable alpha satellite DNA using FISH and the presence of centromere proteins CENP-C and CENP-A using immunofluorescence. The absence of telomere sequences suggests that the marker is a ring chromosome (r(13)). FISH using ordered BACs from the chromosome region 13q21 --> 13q31 permitted the precise positioning of the r(13) chromosome and the corresponding deletion to chromosome bands 13q21.32 --> 13q22.2. BAC 280J7 from within the r(13) was used as a FISH probe for the prenatal analysis of amniocytes at 16 weeks of gestation, which revealed a normal karyotype for the fetus. This r(13) chromosome represents the first description of chromosome 13 of the rarer class of neocentric chromosomes that are derived from interstitial deletions. It represents the first example of prenatal diagnosis in a phenotypically normal female that was ascertained to carry a neocentric marker. The presence of such a neocentric marker/deletion karyotype in a parent presents unique possible karyotypic outcomes for conceptions and unusual challenges for genetic counseling.

Neocentromeres: role in human disease, evolution, and centromere study

The centromere is essential for the proper segregation and inheritance of genetic information. Neocentromeres are ectopic centromeres that originate occasionally from noncentromeric regions of chromosomes. Despite the complete absence of normal centromeric alpha-satellite DNA, human neocentromeres are able to form a primary constriction and assemble a functional kinetochore. Since the discovery and characterization of the first case of a human neocentromere in our laboratory a decade ago, 60 examples of constitutional human neocentromeres distributed widely across the genome have been described. Typically, these are located on marker chromosomes that have been detected in children with developmental delay or congenital abnormalities. Neocentromeres have also been detected in at least two types of human cancer and have been experimentally induced in Drosophila. Current evidence from human and fly studies indicates that neocentromere activity is acquired epigenetically rather than by any alteration to the DNA sequence. Since human neocentromere formation is generally detrimental to the individual, its biological value must lie beyond the individual level, such as in karyotype evolution and speciation.

Molecular cytogenetic analysis of eight inversion duplications of human chromosome 13q that each contain a neocentromere

Neocentromeres are fully functional centromeres that have arisen in previously noncentromeric chromosomal locations on rearranged chromosomes. The formation of neocentromeres results in the mitotic stability of chromosomal fragments that do not contain endogenous centromeres and that would normally be lost. Here we describe a unique collection of eight independent patient-derived cell lines, each of which contains a neocentromere on a supernumerary inversion duplication of a portion of human chromosome 13q. Findings in these patients reveal insight into the clinical manifestations associated with polysomy for portions of chromosome 13q. The results of FISH and immunofluorescent analysis of the neocentromeres in these chromosomes confirm the lack of alpha-satellite DNA and the presence of CENtromere proteins (CENP)-C, -E, and hMAD2. The positions of the inversion breakpoints in these chromosomes have been placed onto the physical map of chromosome 13, by means of FISH mapping with cosmid probes. These cell lines define, within chromosome 13q, at least three distinct locations where neocentromeres have formed, with five independent neocentromeres in band 13q32, two in band 13q21, and one in band 13q31. The results of examination of the set of 40 neocentromere-containing chromosomes that have thus far been described, including the 8 neocentromere-containing chromosomes from chromosome 13q that are described in the present study, suggest that chromosome 13q has an increased propensity for neocentromere formation, relative to some other human chromosomes. These neocentromeres will provide the means for testing hypotheses about sequence requirements for human centromere formation.

Genetic linkage of hyper-IgE syndrome to chromosome 4

The hyper-IgE syndrome (HIES) is a rare primary immunodeficiency characterized by recurrent skin abscesses, pneumonia, and highly elevated levels of serum IgE. HIES is now recognized as a multisystem disorder, with nonimmunologic abnormalities of the dentition, bones, and connective tissue. HIES can be transmitted as an autosomal dominant trait with variable expressivity. Nineteen kindreds with multiple cases of HIES were scored for clinical and laboratory findings and were genotyped with polymorphic markers in a candidate region on human chromosome 4. Linkage analysis showed a maximum two-point LOD score of 3.61 at recombination fraction of 0 with marker D4S428. Multipoint analysis and simulation testing confirmed that the proximal 4q region contains a disease locus for HIES.