De Novo Variants in RAB11B Cause Various Degrees of Global Developmental Delay and Intellectual Disability in Children

BACKGROUND

RAB11B was described previously once with a severe form of intellectual disability. We aim at validation and delineation of the role of RAB11B in neurodevelopmental disorders.

METHODS

We present seven novel individuals with disease-associated variants in RAB11B when compared with the six cases described in the literature. We performed a cross-sectional analysis to identify the clinical spectrum and the core phenotype. Additionally, structural effects of the variants were assessed by molecular modeling.

RESULTS

Seven distinct de novo missense variants were identified, three of them recurrent (p.(Gly21Arg), p.(Val22Met), and p.(Ala68Thr)). Molecular modeling suggests that those variants either affect the nucleotide binding (at amino acid positions 21, 22, 33, 68) or the interaction with effector molecules (at positions 72 and 75). Our data confirmed the main manifestations as neurodevelopmental disorder with intellectual disability (85%), muscular hypotonia (83%), structural brain anomalies (77%), and visual impairment (70%). Combined analysis indicates a genotype-phenotype correlation; variants impacting the nucleotide binding cause a severe phenotype with intellectual disability, and variants outside the binding pocket lead to a milder phenotype with epilepsy.

CONCLUSIONS

We confirm that disease-associated missense variants in RAB11B cause a neurodevelopmental disorder and suggest a genotype-phenotype correlation based on the impact on nucleotide binding functionality of RAB11B.

The clinical and molecular spectrum of the KDM6B-related neurodevelopmental disorder

De novo variants are a leading cause of neurodevelopmental disorders (NDDs), but because every monogenic NDD is different and usually extremely rare, it remains a major challenge to understand the complete phenotype and genotype spectrum of any morbid gene. According to OMIM, heterozygous variants in KDM6B cause "neurodevelopmental disorder with coarse facies and mild distal skeletal abnormalities." Here, by examining the molecular and clinical spectrum of 85 reported individuals with mostly de novo (likely) pathogenic KDM6B variants, we demonstrate that this description is inaccurate and potentially misleading. Cognitive deficits are seen consistently in all individuals, but the overall phenotype is highly variable. Notably, coarse facies and distal skeletal anomalies, as defined by OMIM, are rare in this expanded cohort while other features are unexpectedly common (e.g., hypotonia, psychosis, etc.). Using 3D protein structure analysis and an innovative dual Drosophila gain-of-function assay, we demonstrated a disruptive effect of 11 missense/in-frame indels located in or near the enzymatic JmJC or Zn-containing domain of KDM6B. Consistent with the role of KDM6B in human cognition, we demonstrated a role for the Drosophila KDM6B ortholog in memory and behavior. Taken together, we accurately define the broad clinical spectrum of the KDM6B-related NDD, introduce an innovative functional testing paradigm for the assessment of KDM6B variants, and demonstrate a conserved role for KDM6B in cognition and behavior. Our study demonstrates the critical importance of international collaboration, sharing of clinical data, and rigorous functional analysis of genetic variants to ensure correct disease diagnosis for rare disorders.

PMM2-CDG caused by uniparental disomy: Case report and literature review

BACKGROUND

Phosphomannomutase 2 deficiency (PMM2-CDG) affects glycosylation pathways such as the N-glycosylation pathway, resulting in loss of function of multiple proteins. This disorder causes multisystem involvement with a high variability among patients. PMM2-CDG is an autosomal recessive disorder, which can be caused by inheriting two pathogenic variants, de novo mutations or uniparental disomy.

CASE PRESENTATION

Our patient presented with multisystem symptoms at an early age including developmental delay, ataxia, and seizures. No diagnosis was obtained till the age of 31 years, when genetic testing was reinitiated. The patient was diagnosed with a complete maternal mixed hetero/isodisomy of chromosome 16, with a homozygous pathogenic PMM2 variant (p.Phe119Leu) causing PMM2-CDG.A literature review revealed eight cases of uniparental disomy as an underlying cause of CDG, four of which are PMM2-CDG.

CONCLUSION

Since the incidence of homozygosity for PMM2 variants is rare, we suggest further investigations for every homozygous PMM2-CDG patient where the segregation does not fit. These investigations include testing for UPD or a deletion in one of the two alleles, as this will have an impact on recurrence risk in genetic counseling.

Prevalence of mutations in a diverse cohort of 3162 women tested via the same multigene cancer panel in a managed care health plan

Advances in gene sequencing of mutations related to hereditary cancers have enabled expansion of this testing to patients cared for in community clinics. Our goal was to report on the prevalence of pathogenic/likely pathogenic variants (PV/LPV) and the distribution of mutations by cancer history in a diverse cohort. We evaluated 3162 women in a large non-profit health plan who were referred for cancer genetic counseling and tested them via the same multigene cancer panel. We examined the pathogenic variant/likely pathogenic variant (PV/LPV) prevalence for 20 genes by clinical factors, demographics, and personal or family cancer history. We calculated adjusted odds ratios for the association between race/ethnicity and mutation results. The majority of women (65.4%) were referred post-breast or ovarian cancer diagnosis. The overall prevalence of any PV/LPV result was 11.7%. Overall, nearly 5.4% had BRCA1/2 mutations, while 6.3% had at least one mutation in non-BRCA genes. In the subset with any PV/LPV result, 55.0% of the total mutations were in non-BRCA genes. The distribution of mutations was similar in those with or without a personal cancer history. Latina women were somewhat less likely to have mutations in non-BRCA genes implicated with breast cancer (OR = 0.55, 95% CI 0.36-0.87). Given that 55.0% of the PV/LPV results were in genes other than BRCA1/2, regardless personal or family cancer history, the study suggests that multigene cancer panel testing may be appropriate for detecting germline mutations in a high-risk cohort in a managed care or public health setting.

A Recurrent De Novo Heterozygous COG4 Substitution Leads to Saul-Wilson Syndrome, Disrupted Vesicular Trafficking, and Altered Proteoglycan Glycosylation

The conserved oligomeric Golgi (COG) complex is involved in intracellular vesicular transport, and is composed of eight subunits distributed in two lobes, lobe A (COG1-4) and lobe B (COG5-8). We describe fourteen individuals with Saul-Wilson syndrome, a rare form of primordial dwarfism with characteristic facial and radiographic features. All affected subjects harbored heterozygous de novo variants in COG4, giving rise to the same recurrent amino acid substitution (p.Gly516Arg). Affected individuals' fibroblasts, whose COG4 mRNA and protein were not decreased, exhibited delayed anterograde vesicular trafficking from the ER to the Golgi and accelerated retrograde vesicular recycling from the Golgi to the ER. This altered steady-state equilibrium led to a decrease in Golgi volume, as well as morphologic abnormalities with collapse of the Golgi stacks. Despite these abnormalities of the Golgi apparatus, protein glycosylation in sera and fibroblasts from affected subjects was not notably altered, but decorin, a proteoglycan secreted into the extracellular matrix, showed altered Golgi-dependent glycosylation. In summary, we define a specific heterozygous COG4 substitution as the molecular basis of Saul-Wilson syndrome, a rare skeletal dysplasia distinct from biallelic COG4-CDG.

Loss of ADAMTS3 activity causes Hennekam lymphangiectasia-lymphedema syndrome 3

Primary lymphedema is due to developmental and/or functional defects in the lymphatic system. It may affect any part of the body, with predominance for the lower extremities. Twenty-seven genes have already been linked to primary lymphedema, either isolated, or as part of a syndrome. The proteins that they encode are involved in VEGFR3 receptor signaling. They account for about one third of all primary lymphedema cases, underscoring the existence of additional genetic factors. We used whole-exome sequencing to investigate the underlying cause in a non-consanguineous family with two children affected by lymphedema, lymphangiectasia and distinct facial features. We discovered bi-allelic missense mutations in ADAMTS3. Both were predicted to be highly damaging. These amino acid substitutions affect well-conserved residues in the prodomain and in the peptidase domain of ADAMTS3. In vitro, the mutant proteins were abnormally processed and sequestered within cells, which abolished proteolytic activation of pro-VEGFC. VEGFC processing is also affected by CCBE1 mutations that cause the Hennekam lymphangiectasia-lymphedema syndrome syndrome type1. Our data identifies ADAMTS3 as a novel gene that can be mutated in individuals affected by the Hennekam syndrome. These patients have distinctive facial features similar to those with mutations in CCBE1. Our results corroborate the recent in vitro and murine data that suggest a close functional interaction between ADAMTS3 and CCBE1 in triggering VEGFR3 signaling, a cornerstone for the differentiation and function of lymphatic endothelial cells.

Mild orotic aciduria in UMPS heterozygotes: a metabolic finding without clinical consequences

BACKGROUND

Elevated urinary excretion of orotic acid is associated with treatable disorders of the urea cycle and pyrimidine metabolism. Establishing the correct and timely diagnosis in a patient with orotic aciduria is key to effective treatment. Uridine monophosphate synthase is involved in de novo pyrimidine synthesis. Uridine monophosphate synthase deficiency (or hereditary orotic aciduria), due to biallelic mutations in UMPS, is a rare condition presenting with megaloblastic anemia in the first months of life. If not treated with the pyrimidine precursor uridine, neutropenia, failure to thrive, growth retardation, developmental delay, and intellectual disability may ensue.

METHODS AND RESULTS

We identified mild and isolated orotic aciduria in 11 unrelated individuals with diverse clinical signs and symptoms, the most common denominator being intellectual disability/developmental delay. Of note, none had blood count abnormalities, relevant hyperammonemia or altered plasma amino acid profile. All individuals were found to have heterozygous alterations in UMPS. Four of these variants were predicted to be null alleles with complete loss of function. The remaining variants were missense changes and predicted to be damaging to the normal encoded protein. Interestingly, family screening revealed heterozygous UMPS variants in combination with mild orotic aciduria in 19 clinically asymptomatic family members.

CONCLUSIONS

We therefore conclude that heterozygous UMPS-mutations can lead to mild and isolated orotic aciduria without clinical consequence. Partial UMPS-deficiency should be included in the differential diagnosis of mild orotic aciduria. The discovery of heterozygotes manifesting clinical symptoms such as hypotonia and developmental delay are likely due to ascertainment bias.

Abstract P2-09-26: Women without significant claus model breast cancer risks may warrant breast MRI when a pathogenic/likely-pathogenic variant (PV/LPV) is detected in a hereditary cancer moderate risk gene

Background: Hereditary cancer gene panel testing can assess breast cancer risk for women with significant family histories. The Claus risk model is another method to determine which women qualify for annual breast MRIs based on family history, and can be used for those with BRCA negative status or for those who do not qualify for BRCA testing. In July 2014, Kaiser Permanente Southern California, a large integrated health plan, began using hereditary cancer panels comprised of moderate and high-risk breast cancer genes (GeneDx). At the time of implementation, no clinical management guidelines existed for patients with PV/LPV in moderate risk genes. In March 2015, the National Comprehensive Cancer Network (NCCN) amended the Genetic/Familial High Risk Assessment Breast and Ovarian guidelines to include breast cancer surveillance for patients with PV/LPV in moderate risk genes including ATM, CHEK2 and PALB2.

Objective: To determine if the identification of PV/LPV in moderate risk genes versus Claus model calculation increases the number of women warranting breast MRI in a managed care setting.

Methods: We performed a retrospective query of our gene panel results from 6/2014 to 5/2015 to identify patients with ATM, CHEK2 and PALB2 PV/LPV. Personal and family histories were obtained from the test requisitions. Patients with personal histories of breast cancer were excluded from analysis. We calculated the lifetime breast cancer risk using the Claus model for all eligible female patients with a moderate risk gene PV/LPV. To calculate the risk, the Claus model included family history of breast cancer in first and second-degree relatives. A lifetime breast cancer risk of >20% indicates "high" risk.

Results: A total of 19 female patients without breast cancer had a PV/LPV detected in a moderate risk gene (ATM, CHEK2, and PALB2. Claus model calculation was feasible in 12 patients. Of these 12, 4 had a PV/LPV in ATM, 6 in CHEK2 and 2 in PALB2. Only one out of these 12 women was identified with >20% risk of breast cancer based on the Claus model, and was recommended a breast MRI.

A review of electronic medical records (EMR) notes to date (June 1, 2015) revealed that breast MRI was recommended for 10 of the 12 patients above, and completed in 6. MRI identified a suspicious breast lesion in one patient. Follow-up tests and lumpectomy revealed atypical ductal hyperplasia and she will be followed with annual MRI and mammogram. The remaining 2 of12 women had no mention of MRI in their EMR, and will be flagged for follow-up to determine MRI status.

Conclusions: Eleven out of 12 women with a PV/LVP in a moderate risk gene would not have been identified as having an increased breast cancer risk by the Claus model. In our small sample, utilization of a High/Moderate Risk Gene Panel identified more patients potentially warranting enhanced breast cancer surveillance with annual breast MRI than the Claus model. This finding suggests that the use of hereditary cancer gene panel testing may impact the medical management of women with a familial risk for breast cancer. Larger studies with outcome data are needed to determine optimal surveillance guidelines.

Citation Format: Alvarado M, Tiller GE, Kershberg H, Solomon SR, Mullineaux L, Haque R. Women without significant claus model breast cancer risks may warrant breast MRI when a pathogenic/likely-pathogenic variant (PV/LPV) is detected in a hereditary cancer moderate risk gene. [abstract]. In: Proceedings of the Thirty-Eighth Annual CTRC-AACR San Antonio Breast Cancer Symposium: 2015 Dec 8-12; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2016;76(4 Suppl):Abstract nr P2-09-26.

Abstract P2-09-04: Implementation of next generation cancer gene panel testing in a large HMO

Background: Next generation cancer gene panel testing is fairly new in clinical practice. Little is known about the diagnostic yield of multigene cancer panel testing in community based hospitals.

Objective: To describe characteristics of a diverse cohort who underwent high/moderate risk multigene panel testing for either a personal or a family history of cancer in a large health plan, and report the proportion of pathogenic/likely pathogenic variants (PV/LPV) and variants of unknown clinical significance (VUS) by race/ethnicity.

Methods: Subjects included all 586 female patients who were referred for genetic counseling and underwent multigene panel testing between July 2014 and January 2015. Based on a literature review, the custom-designed high/moderate risk gene panel included 20 cancer susceptibility genes (described below). All tests were performed by the same commercial laboratory (GeneDx).

Results: Of the 586 women, 78 (13.3%) tested positive PV/LPV316 (53.9%) tested negative; and 192 (32.8%) carried one or more VUS. Age at testing ranged from 22-81 years (median 50 years). More women with PV/LPV results tended to be obese than those who tested negative (39.7% vs. 31.2%), and had greater comorbidity (Charlson Index of >3, 35.9% vs. 33.2%).

Of 586 women, 305 (52.0%) had a cancer diagnosis, mainly first primary breast cancer (n=290, 95.1%), while some also had a second primary breast cancer (n=67, 11.4%). Of the 305 women with cancer, 131 (42.9%) were diagnosed prior to the multigene testing implementation (1987-2013), while 174 (57.1%) were diagnosed after implementation.

The cohort was diverse in terms of race/ethnicity: Western/Northern European (31.2%), Latina/Caribbean (30.0%), Asian (14.8%), African-American (7.2%), Ashkenazi Jewish (6.3%), Native American (5.9%), and other (14.9%) (percent exceeds 100% due to mixed race/ethnicity). Of the 192 women who carried a VUS, 60.4% were Western/Northern European, and 46.4% were Latina/Caribbean. Pathogenic or likely pathogenic mutations were higher in Latina /Caribbean women (37.2%), followed by Western/Northern European (26.7%), and African (10.3%). We identified a total of 84 pathogenic mutations among the 78 women with PV/LPV in the following genes: BRCA1 (n=22), BRCA2 (n=17), MUTYH (n=16; all heterozygous), CHEK2 (n=9), ATM (n=4), PALB2 (n=4), PMS2 (n=3), MLH1 (n=2), VHL (n=2), and one mutation in each of the following genes: APC, CDH1, PTEN, TP53, and STK11. VUS were detected in 192 patients (32.7%) of the 586 tested. VUS in ATM (n=57), APC (n=32) and CHEK2 (n=25) comprised 59.4% of all VUS detected.

Discussion: The large percent of VUS was surprising, given that our panel included only high/moderate risk cancer genes. The over-representation of BRCA1/2 among all mutations (45.1%) likely reflected a greater proportion of patients referred for genetic counseling with a personal and/or family breast cancer history. Given that 35% of our positive results were dominant-acting pathogenic or suspected pathogenic mutations, our results suggest that multigene cancer panel testing is an appropriate method for detecting germline mutations in a high-risk cohort in a managed care setting.

Citation Format: Haque R, Alvarado M, Ahmed SA, Chung J, Tiller GE. Implementation of next generation cancer gene panel testing in a large HMO. [abstract]. In: Proceedings of the Thirty-Eighth Annual CTRC-AACR San Antonio Breast Cancer Symposium: 2015 Dec 8-12; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2016;76(4 Suppl):Abstract nr P2-09-04.

Women's views and the impact of noninvasive prenatal testing on procedures in a managed care setting

OBJECTIVE

To prospectively determine the impact of noninvasive prenatal testing (NIPT) on invasive procedure utilization in a managed care setting and to elucidate women's views.

METHODS

Pregnant women at 10- 20 weeks' gestation with high-risk indications for fetal aneuploidy in the Kaiser Permanente Southern California organization were eligible. Enrolled patients received routine prenatal counseling, completed a questionnaire and were offered the option of NIPT by a genetic counselor. Downstream data through 28 weeks' gestation were collected from the electronic medical record (EMR). The EMR was also used to identify a matched historical cohort from 1 year prior to NIPT availability. Rates of invasive prenatal procedures were compared using McNemar's test.

RESULTS

Two hundred women completed the questionnaire and underwent NIPT. Twenty-two subjects (11%) in the prospective cohort underwent an invasive prenatal procedure compared with 58 (29%) in the historical cohort (p<0.0001). Safety and accuracy were the most important factors in considering NIPT. At the time of survey, only 12% indicated being very comfortable with the possibility of undergoing amniocentesis.

CONCLUSION

This prospective study demonstrates a 62% reduction in invasive prenatal procedures after NIPT testing and finds safety, accuracy, and personal beliefs key to women's decision-making.

Use of the electronic medical record (EMR) to identify women at increased risk for hereditary breast and ovarian cancer (HBOC)

236

Background: Diagnosis of breast cancer at a young age is an indication for genetic counseling and possible BRCA testing. However, not all women with this early diagnosis are referred for genetic counseling, especially if they do not have a family history of breast or ovarian cancer. Methods: The genetics department in Kaiser Permanente Southern California (KPSC) provides clinical genetic services in an integrated health care system serving over 3.6 million members. Using data from the KPSC tumor registry, the KPSC EMR system, and a departmental cancer test results database, we identified 454 women diagnosed with early breast cancer (<46 years) between September 2005 and September 2010 who had not received genetic counseling. We contacted these women with a letter and/or phone call offering a genetics consultation, and we offered BRCA testing to all those who came for counseling. Results: 142 women (31%) came in for genetic counseling, and 312 women (69%) declined, did not keep their appointment, or never responded. Hispanics were more likely to schedule and keep an appointment than Caucasians (OR=1.35, 95% CI, 0.79-2.31), although this was not statistically significant. Of those who came in for counseling, African Americans were significantly less likely to accept genetic testing than Caucasians (OR=0.31, 95% CI, 0.10-0.98).Of the 142 patients who were counseled, 122 (86%) accepted testing. We identified 6 patients (5%) who were positive for a deleterious BRCA mutation and 6 patients (5%) who had a variant of uncertain significance. Of the 6 women with deleterious mutations, only 1 had a first-degree relative with breast or ovarian cancer, and 4 had mutation probabilities <10%. Conclusions: This project demonstrates how an integrated care approach and EMR system provide an opportunity to identify and contact women who are at increased risk for inherited cancer susceptibility.

Abstract P3-08-06: Triple Negative Breast Cancer and BRCA Status: Implications for Genetic Counseling

BACKGROUND: Controversy exists whether women newly diagnosed with triple negative breast cancer (TNBC) should be referred to genetic counseling as they may be more likely to be BRCA carriers. However, prior studies included small numbers of carriers and their results have had limited influence on practice guidelines. The objective of this study was to determine the association of breast cancer molecular subtype and BRCA status in a large group of medically insured women.

METHODS: We examined a cohort of 2,105 women with breast cancer history tested for BRCA mutations in a large California health plan from 1997–2011. BRCA test results were recorded in the health plan's clinical genetics registry. Of the 2,105 breast cancer patients, 249 were BRCA mutation carriers (143 BRCA1 carriers, and 106 BRCA2 carriers). We conducted data linkages of all patients with the health plan's NCI-SEER affiliated tumor registry and identified ER, PR, and HER2. HER2 status was also captured from pathology reports using natural language processing. ER, PR, and HER2 status were assessed by immunohistochemical or FISH techniques. Patients were classified into four main biologic subtypes: triple negative (ER−/PR−/HER2−); luminal A (ER+ and/or PR+/HER2−); luminal B (ER+ and/or PR+/HER2+); and HER2-enriched (HER2+/ER−). We examined the association between molecular subtypes (collapsed into TNBC vs. non TNBC categories) and BRCA1/2 mutation status using contingency table analyses. P-values (two-sided) were estimated using chi-square analysis. Multivariable logistic regression was used to estimated adjusted odds ratios (OR) and 95% confidence intervals.

RESULTS: TNBC subtype was strongly associated with BRCA status (P &lt; 0.0001). Women with TNBC tumors were five-fold more likely to be BRCA carriers than women who had non-TNBC breast tumors (OR = 5.6, 95% CI: 4.1–7.5). Specifically, the association of TNBC with BRCA1 was more robust (OR = 12.2, 95% CI: 8.3–17.9). Adjusting for age and stage of breast cancer diagnosis and race/ethnicity did not materially modify the association between TNBC and BRCA1 status. TNBC was not associated with BRCA2 status (OR = 1.6, 95% CI: 0.9–2.7).

Metaphyseal chondromatosis combined with D-2-hydroxyglutaric aciduria in four patients

We report four patients who presented with a severe form of metaphyseal chondromatosis in association with D-2-hydroxyglutaric aciduria (D-2-HGA). All patients showed splaying columns of irregular ossification defects with bulbous metaphyses of the long tubular bones, as well as remarkable involvement of the short tubular and flat bones. The vertebral bodies revealed platyspondyly with irregular, stippled endplates. D-2-HGA has been described as a neurometabolic disorder manifesting a broad range of impairment in mental and motor development. Although hydroxyglutaric acid was excreted in high amounts in the urine of all four patients described herein, no significant neurologic abnormalities were evident. This unusual combination of characteristic skeletal and metabolic abnormalities has rarely been reported. Thus, our report will facilitate the recognition of this distinctive entity, and we suggest that a urine organic acid screening be obtained in patients who present with generalized enchondromatosis.

A newly recognized syndrome with characteristic facial features, skeletal dysplasia, and developmental delay

We describe a series of seven male patients from six different families with skeletal dysplasia, characteristic facial features, and developmental delay. Skeletal findings include patellar dislocation, short tubular bones, mild metaphyseal changes, brachymetacarpalia with stub thumbs, short femoral necks, shallow acetabular roofs, and platyspondyly. Facial features include: a flattened midface with broad nasal bridge, cleft palate or bifid uvula and synophrys. All of the patients demonstrated pre-school onset of a cognitive developmental delay with a shortened attention span. Some of the cognitive delay was masked by a warm and engaging personality. We posit that these individuals have a newly recognized syndrome characterized by the described features. There is some phenotypic overlap between these patients and Desbuquois dysplasia; however molecular testing demonstrated that this is a distinct disorder. Given the family information available for each patient, we are suspicious that the constellation of findings reported herein could be an X-linked recessive syndrome.

Safety and efficacy of enzyme replacement therapy in combination with hematopoietic stem cell transplantation in Hurler syndrome

PURPOSE

Hurler syndrome is a debilitating genetic disease with a typical life span of 5 to 8 years. Early hematopoietic stem cell transplantation (HSCT) mitigates disease symptoms and improves survival. However, morbidity and mortality associated with HSCT can limit its success. We describe the initial experience with combined use of enzyme replacement therapy (ERT, laronidase) and HSCT in Hurler syndrome.

METHODS

Thirteen transplants were performed in 12 patients. ERT was given at a standard dose of 0.58 mg/kg per week. Transplant conditioning regimen and donor graft source were determined by institutional protocol.

RESULTS

The median age at initiation of ERT was 12 months (range, 8 to 18 months). The median duration of pre-HSCT ERT was 12 weeks (range, 4 to 28). All but 1 patient tested showed decrease in urinary GAG excretion during ERT. ERT infusion-related toxicity was limited to mild reactions. Development of antibodies to laronidase did not correlate with infusion reactions or responses in urinary GAG excretion. ERT was given for a median of 7 weeks (range, 3 to 20) after HSCT. After transplantation, eight patients demonstrated complete donor engraftment and four suffered graft failure. Two patients required ventilator support and three developed acute GVHD. Eleven of the 12 patients are surviving with a median follow-up of 3 months (range, 1 to 7 months).

CONCLUSIONS

In children with Hurler syndrome, ERT with HSCT is feasible and well tolerated. Development of antibodies against exogenous enzyme does not appear to correlate with infusion reactions or response to ERT. A prospective study is needed to determine the effect of concomitant ERT on transplant outcomes.

Nephrotic syndrome complicating alpha-glucosidase replacement therapy for Pompe disease

We report a patient with Pompe disease who developed reversible nephrotic syndrome during prolonged, high-dose, experimental, enzyme replacement therapy with recombinant human acid alpha-glucosidase (rhGAA). Because of the development of antibodies to rhGAA and concomitant clinical decline, escalating doses of rhGAA were administered as part of an experimental immune tolerance regimen. Histologic evaluation of kidney tissue revealed glomerular deposition of immune complexes containing rhGAA itself, in a pattern of membranous nephropathy. To our knowledge, this is the first reported case of nephrotic syndrome occurring during enzyme replacement therapy. The nephrotic syndrome gradually resolved after the rhGAA dose was decreased, indicating that decreasing the antigenic load can ameliorate glomerular immune complex deposition associated with enzyme replacement in a highly sensitized patient.

A novel PTPN11 mutation in LEOPARD syndrome

PTPN11 gene mutations are common to both patients with Noonan (NS) and LEOPARD syndrome (LS). So far only two recurrent mutations have been identified in LS patients by different research groups, i.e., Tyr279Cys and Thr468Met. In this work we describe the third PTPN11 mutation that has been found in a single LS patient. The mutation (c.1517A>C) substitutes a proline for a glutamine at amino acid 506 (Gln506Pro) in the phosphatase domain (PTP) of the PTPN11 peptide SHP2. This region is a mutation hotspot. Changes at amino acids 501 to 504 cause NS. Gln506Pro is predicted, by modeling analysis, to seriously disrupt the normal contacts between the regulating N-SH2 and the active PTP domains, leading to hyperactivity of the phosphatase. This report demonstrates that rarer mutations other than Tyr279Cys and Thr468Met can be found in LS patients and the need of screening the whole gene in those negative for the commonest mutations.

A recurrent RNA-splicing mutation in the SEDL gene causes X-linked spondyloepiphyseal dysplasia tarda

Spondyloepiphyseal dysplasia tarda (SEDL) is a genetically heterogeneous disorder characterized by mild-to-moderate short stature and early-onset osteoarthritis. Both autosomal and X-linked forms have been described. Elsewhere, we have reported the identification of the gene for the X-linked recessive form, which maps to Xp22.2. We now report characterization of an exon-skipping mutation (IVS3+5G-->A at the intron 3 splice-donor site) in two unrelated families with SEDL. Using reverse transcriptase (RT)-PCR, we demonstrated that the mutation resulted in elimination of the first 31 codons of the open reading frame. The mutation was not detected in 120 control X chromosomes. Articular cartilage from an adult who had SEDL and carried this mutation contained chondrocytes with abundant Golgi complexes and dilated rough endoplasmic reticulum (ER). RT-PCR experiments using mouse/human cell hybrids revealed that the SEDL gene escapes X inactivation. Homologues of the SEDL gene include a transcribed retropseudogene on chromosome 19, as well as expressed genes in mouse, rat, Drosophila melanogaster Caenorhabditis elegans, and Saccharomyces cerevisiae. The latter homologue, p20, has a putative role in vesicular transport from ER to Golgi complex. These data suggest that SEDL mutations may perturb an intracellular pathway that is important for cartilage homeostasis.

The molecular basis of X-linked spondyloepiphyseal dysplasia tarda

The X-linked form of spondyloepiphyseal dysplasia tarda (SEDL), a radiologically distinct skeletal dysplasia affecting the vertebrae and epiphyses, is caused by mutations in the SEDL gene. To characterize the molecular basis for SEDL, we have identified the spectrum of SEDL mutations in 30 of 36 unrelated cases of X-linked SEDL ascertained from different ethnic populations. Twenty-one different disease-associated mutations now have been identified throughout the SEDL gene. These include nonsense mutations in exons 4 and 5, missense mutations in exons 4 and 6, small (2-7 bp) and large (>1 kb) deletions, insertions, and putative splicing errors, with one splicing error due to a complex deletion/insertion mutation. Eight different frameshift mutations lead to a premature termination of translation and account for >43% (13/30) of SEDL cases, with half of these (7/13) being due to dinucleotide deletions. Altogether, deletions account for 57% (17/30) of all known SEDL mutations. Four recurrent mutations (IVS3+5G-->A, 157-158delAT, 191-192delTG, and 271-275delCAAGA) account for 43% (13/30) of confirmed SEDL cases. The results of haplotype analyses and the diverse ethnic origins of patients support recurrent mutations. Two patients with large deletions of SEDL exons were found, one with childhood onset of painful complications, the other relatively free of additional symptoms. However, we could not establish a clear genotype/phenotype correlation and therefore conclude that the complete unaltered SEDL-gene product is essential for normal bone growth. Molecular diagnosis can now be offered for presymptomatic testing of this disorder. Appropriate lifestyle decisions and, eventually, perhaps, specific SEDL therapies may ameliorate the prognosis of premature osteoarthritis and the need for hip arthroplasty.

Enzyme-replacement therapy in mucopolysaccharidosis I

BACKGROUND

Mucopolysaccharidosis I is a lysosomal storage disease caused by a deficiency of the enzyme alpha-L-iduronidase. We evaluated the effect of enzyme-replacement therapy with recombinant human alpha-L-iduronidase in patients with this disorder.

METHODS

We treated 10 patients with mucopolysaccharidosis I (age, 5 to 22 years) with recombinant human alpha-L-iduronidase at a dose of 125,000 U per kilogram of body weight given intravenously once weekly for 52 weeks. The patients were evaluated at base line and at 6, 12, 26, and 52 weeks by detailed clinical examinations, magnetic resonance imaging of the abdomen and brain, echocardiography, range-of-motion measurements, polysomnography, clinical laboratory evaluations, measurements of leukocyte alpha-L-iduronidase activity, and urinary glycosaminoglycan excretion.

RESULTS

Hepatosplenomegaly decreased significantly in all patients, and the size of the liver was normal for body weight and age in eight patients by 26 weeks. The rate of growth in height and weight increased by a mean of 85 and 131 percent, respectively, in the six prepubertal patients. The mean maximal range of motion of shoulder flexion and elbow extension increased significantly. The number of episodes of apnea and hypopnea during sleep decreased 61 percent. New York Heart Association functional class improved by one or two classes in all patients. Urinary glycosaminoglycan excretion decreased after 3 to 4 weeks of treatment; the mean reduction was 63 percent of base-line values. Five patients had transient urticaria during infusions. Serum antibodies to alpha-L-iduronidase were detected in four patients.

CONCLUSIONS

In patients with mucopolysaccharidosis I, treatment with recombinant human alpha-L-iduronidase reduces lysosomal storage in the liver and ameliorates some clinical manifestations of the disease.

Physical and linkage mapping of the gene for the alpha3 chain of type IX collagen, COL9A3, to human chromosome 20q13.3

Type IX collagen is a minor cartilage component which associates with mixed fibrils of types II/XI collagen. We have determined the precise physical and genetic locations for the gene encoding the alpha3 chain of type IX collagen, COL9A3. Utilizing fluorescence in situ hybridization, radiation hybrid mapping, and multipoint linkage analysis, we have mapped COL9A3 to human chromosome 20q13.3, 13 cM telomeric to D20S173.

Situs inversus with hypertrophic cardiomyopathy in identical twins

We describe identical twin sisters born to nonconsanguineous, healthy parents. Both twins had situs viscerum inversus and developed hypertrophic cardiomyopathy in adulthood.

Identification of the gene (SEDL) causing X-linked spondyloepiphyseal dysplasia tarda

Spondyloepiphyseal dysplasia tarda (SEDL; MIM 313400) is an X-linked recessive osteochondrodysplasia that occurs in approximately two of every one million people. This progressive skeletal disorder which manifests in childhood is characterized by disproportionate short stature with short neck and trunk, barrel chest and absence of systemic complications. Distinctive radiological signs are platyspondyly with hump-shaped central and posterior portions, narrow disc spaces, and mild to moderate epiphyseal dysplasia. The latter usually leads to premature secondary osteoarthritis often requiring hip arthroplasty. Obligate female carriers are generally clinically and radiographically indistinguishable from the general population, although some cases have phenotypic changes consistent with expression of the gene defect. The SEDL gene has been localized to Xp22 (refs 8,9) in the approximately 2-Mb interval between DXS16 and DXS987 (ref. 10). Here we confirm and refine this localization to an interval of less than 170 kb by critical recombination events at DXS16 and AFMa124wc1 in two families. In one candidate gene we detected three dinucleotide deletions in three Australian families which effect frameshifts causing premature stop codons. The gene designated SEDL is transcribed as a 2.8-kb transcript in many tissues including fetal cartilage. SEDL encodes a 140 amino acid protein with a putative role in endoplasmic reticulum (ER)-to-Golgi vesicular transport.

Multiple inositol polyphosphate phosphatase: evolution as a distinct group within the histidine phosphatase family and chromosomal localization of the human and mouse genes to chromosomes 10q23 and 19

Multiple inositol polyphosphate phosphatase is the only enzyme known to hydrolyze the abundant metabolites inositol pentakisphosphate and inositol hexakisphosphate. We have previously demonstrated that the chick homolog of multiple inositol polyphosphate phosphatase, designated HiPER1, has a role in growth plate chondrocyte differentiation. The relationship of these enzymes to intracellular signaling is obscure, and as part of our investigation we have examined the murine ((MMU)Minpp1) and human ((HSA)MINPP1) homologs. Northern blot analysis demonstrated expression of ((MMU)Minpp1 in a variety of mouse tissues, comparable to the expression of other mammalian homologs, but less restricted than the expression of HiPER1 in chick. A purified (MMU)Minpp1 fusion protein cleaved phosphate from inositol (1,3,4,5)-tetrakisphosphate and para-nitrophenyl phosphate. When the presumptive active site histidine was altered to alanine by site-directed mutagenesis, enzyme activity was abolished, confirming the classification of (MMU)Minpp1 as a histidine phosphatase. The amino acid sequences of the murine and human MINPP proteins share >80% identity with the rat enzyme and >56% identity with HiPER1, with conservation of the C-terminal consensus sequence that retains proteins in the endoplasmic reticulum. The intron/exon structure of the mammalian (MMU)Minpp1 and (HSA)MINPP1 genes is also conserved compared to the chick HiPER1 gene. Sequence analysis of plant and fruit fly MINPP homologs supports the hypothesis that the MINPP enzymes constitute a distinct evolutionary group within the histidine phosphatase family. We have mapped (HSA)MINPP1 to human chromosome 10q23 by fluorescence in situ hybridization, YAC screening, and radiation hybrid mapping. This assignment places (HSA)MINPP1 in a region of chromosome 10 that is frequently mutated in human cancers and places (HSA)MINPP1 proximal to the tumor suppressor PTEN, which maps to 10q23.3. Using a radiation hybrid panel, we localized (MMU)Minpp1 to a region of mouse chromosome 19 that includes the murine homolog of Pten. The evolutionary conservation of this novel enzyme within the inositol polyphosphate pathway suggests a significant role for multiple inositol polyphosphate phosphatase throughout higher eukaryotes.

Cutis laxa arising from frameshift mutations in exon 30 of the elastin gene (ELN)

Congenital cutis laxa, a rare syndrome with marked skin laxity and pulmonary and cardiovascular compromise, is due to defective elastic fiber formation. In several cases, skin fibroblast tropoelastin production is markedly reduced yet reversed in vitro by transforming growth factor-beta treatment. We previously showed that this reversal was due to elastin mRNA stabilization in one cell strain, and here this behavior was confirmed in skin fibroblasts from two generations of a second family. cDNA sequencing and heteroduplex analysis of elastin gene transcripts from three fibroblast strains in two kindreds now identify two frameshift mutations (2012DeltaG and 2039DeltaC) in elastin gene exon 30, thus leading to missense C termini. No other mutations were present in the ELN cDNA sequences of all three affected individuals. Transcripts from both alleles in each kindred were unstable and responsive to transforming growth factor-beta. Exons 22, 23, 26A, and 32 were always absent. Since exon 30 underwent alternative splicing in fibroblasts, we speculate that a differential splicing pattern could conceivably lead to phenotypic rescue. These two dominant-acting, apparently de novo mutations in the elastin gene appear to be responsible for qualitative and quantitative defects in elastin, resulting in the cutis laxa phenotype.

Aortic root dilatation in Ehlers-Danlos syndrome types I, II and III. A report of five cases

We have identified five families in whom individuals affected with the Ehlers Danlos syndrome (EDS) types I, II or III had aortic root dilatation (ARD). All propositi had a low upper/lower segment ratio but no other diagnostic skeletal or ocular features of Marfan syndrome. Their skin had the soft, velvety texture characteristic of EDS and all had significant joint laxity. Probands included a 4-year-old girl with EDS type I, 4- and 8-year-old girls with EDS type III, a 35-year-old male with EDS type II, and a 51-year-old female with EDS type III. Review of these cases suggests the need for multicenter clinical studies in order to determine the prevalence and the rate of progression of ARD in EDS types I, II, and III. Such studies are necessary to determine whether echocardiograms (including measurement of aortic root diameter) should be considered on initial evaluation of all patients with mild forms of EDS.

Marshall syndrome associated with a splicing defect at the COL11A1 locus

Marshall syndrome is a rare, autosomal dominant skeletal dysplasia that is phenotypically similar to the more common disorder Stickler syndrome. For a large kindred with Marshall syndrome, we demonstrate a splice-donor-site mutation in the COL11A1 gene that cosegregates with the phenotype. The G+1-->A transition causes in-frame skipping of a 54-bp exon and deletes amino acids 726-743 from the major triple-helical domain of the alpha1(XI) collagen polypeptide. The data support the hypothesis that the alpha1(XI) collagen polypeptide has an important role in skeletal morphogenesis that extends beyond its contribution to structural integrity of the cartilage extracellular matrix. Our results also demonstrate allelism of Marshall syndrome with the subset of Stickler syndrome families associated with COL11A1 mutations.

Isolation and characterization of a mammalian homolog of the Drosophila white gene

The Drosophila melanogaster white gene is a member of the ABC transporter superfamily of ATPase transmembrane proteins and is involved in the cellular uptake of guanine and tryptophan. We have cloned and sequenced human and mouse homologs of white which share 55-58% amino acid similarity with the Drosophila protein. Northern analysis reveals that the mammalian homolog is highly expressed in several tissues, including brain, spleen, lung and placenta. We have localized the gene to human chromosome 21q22.3 by means of fluorescence in situ hybridization and linkage analysis using a (CA)n polymorphism. The human homolog maps to the interval between D21S212 and D21S171, a region which includes loci for bipolar affective disorder and a recessive form of deafness. Since tryptophan is a precursor for the neurotransmitter serotonin and neurotoxic metabolites of the kynurenine pathway, we propose that the human homolog of white is a suitable candidate gene for these neurological disorders in humans.

A novel (TA)n polymorphism in the hexokinase II gene: application to noninsulin-dependent diabetes mellitus in the Pima Indians

Hexokinase II, one member of a family of structurally similar enzymes that catalyze the phosphorylation of glucose in the 6-position, has been suggested to play a role in the pathophysiology of noninsulin-dependent diabetes mellitus (NIDDM). The gene for hexokinase II, HK2, has been previously mapped to human chromosome 2p13 by fluorescence in situ hybridization, and two-point linkage analysis has placed it near the locus for transforming growth factor alpha, TGFA. We now report the characterization of a (TA)n polymorphism in intron 12 of HK2. Using multipoint analysis of CEPH family genotypes, we have determined the most likely locus order to be cen-D2S169-[D2S286-HK2]-[D2S145-D2S291]-[+ ++D2S45-D2S101-TGFA]-tel. As HKII is a candidate gene that could contribute to the manifestation of insulin resistance and NIDDM, we genotyped 1152 Pima Indians, a Native American tribe that has the highest reported prevalence of NIDDM in the world. Although we did not detect any linkage or association of HK2 with insulin resistance or NIDDM in the Pima Indians, the polymorphism and detailed mapping of HK2 described in this report should prove useful in the assessment of the role of this gene in the predisposition to NIDDM in other populations.

Molecular cloning of the alpha 3 chain of human type IX collagen: linkage of the gene COL9A3 to chromosome 20q13.3

Type IX collagen is composed of three polypeptides derived from the human genes COL9A1, COL9A2, and COL9A3 that assemble to form a mature collagen molecule with the structure alpha 1(IX)alpha 2(IX)alpha 3(IX). We have identified overlapping cDNA and genomic clones that encode for the entire alpha 3 chain of human type IX collagen. Tryptic peptides from the human alpha 3(IX) collagen chain were subjected to N-terminal amino acid sequencing, and a stretch of 124 contiguous amino acids that included the NC1, COL1, and NC2 domains was obtained. Degenerate oligonucleotide primers were designed based on the amino acid sequences of the human tryptic peptides as well as bovine peptides and sequences from chicken cDNA clones. These primers were used to amplify three overlapping PCR products that covered the majority of the human alpha 3(IX) collagen. PCR products were then used to identify overlapping cDNA clones from a human chondrocyte library. A lambda genomic clone was identified that contained the 5'-most exon that encodes the signal peptide to complete the entire structure of the human alpha 3(IX) collagen chain. Genomic amplification identified a single-strand conformational polymorphism in COL1 that was used to map COL9A3 to chromosome 20q13.3 by linkage analysis. The present study completes the structure of human type IX collagen, and linkage for COL9A3 completes the genomic mapping of cartilage collagen genes. These data will greatly assist the genetic screening of families with degenerative cartilage and eye diseases by allowing investigators to screen for a complete set of candidate collagen gene markers.

Dominant mutations in the type II collagen gene, COL2A1, produce spondyloepimetaphyseal dysplasia, Strudwick type

The chondrodysplasias are a heterogeneous group of disorders characterized by abnormal growth or development of cartilage. Current classification is based on mode of inheritance as well as clinical, histologic, and/or radiographic features. A clinical spectrum of chondrodysplasia phenotypes, ranging from mild to perinatal lethal, is due to defects in the gene for type II collagen, COL2A1. This spectrum includes Stickler syndrome, Kniest dysplasia, spondyloepiphyseal dysplasia congenita (SEDC), achondrogenesis type II, and hypochondrogenesis. Individuals affected with these disorders exhibit abnormalities of the growth plate, nucleus pulposus, and vitreous humor, which are tissues that contain type II collagen. The Strudwick type of spondyloepimetaphyseal dysplasia (SEMD) is characterized by disproportionate short stature, pectus carinatum, and scoliosis, as well as dappled metaphyses (which are not seen in SEDC). The phenotype was first described by Murdoch and Walker in 1969, and a series of 14 patients was later reported by Anderson et al. The observation of two affected sibs born to unaffected parents led to the classification of SEMD Strudwick as an autosomal recessive disorder. We now describe the biochemical characterization of defects in alpha 1(II) collagen in three unrelated individuals with SEMD Strudwick, each of which is due to heterozygosity for a unique mutation in COL2A1. Our data support the hypothesis that some cases, if not all cases, of this distinctive chondrodysplasia result from dominant mutations in COL2A1, thus expanding the clinical spectrum of phenotypes associated with this gene.

Alopecia/mental retardation syndrome

We report on an African-American patient with alopecia universalis, microcephaly, hypogonadism, and mental and growth retardation, and compare his phenotype to others with recessive alopecia/mental retardation syndromes in the literature. Our patient represents the first case reported from nonconsanguineous African-American parents.

Autosomal dominant and recessive osteochondrodysplasias associated with the COL11A2 locus

Identifying mutations that cause specific osteochondrodysplasias will provide novel insights into the function of genes that are essential for skeletal morphogenesis. We report here that an autosomal dominant form of Stickler syndrome, characterized by mild spondyloepiphyseal dysplasia, osteoarthritis, and sensorineural hearing loss, but no eye involvement, is caused by a splice donor site mutation resulting in "in-frame" exon skipping within the COL11A2 gene, encoding the alpha 2(XI) chain of the quantitatively minor fibrillar collagen XI. We also show that an autosomal recessive disorder with similar, but more severe, characteristics is linked to the COL11A2 locus and is caused by a glycine to arginine substitution in alpha 2(XI) collagen. The results suggest that mutations in collagen XI genes are associated with a spectrum of abnormalities in human skeletal development and support the conclusion of others, based on studies of murine chondrodysplasia, that collagen XI is essential for skeletal morphogenesis.

An RNA-splicing mutation (G+5IVS20) in the type II collagen gene (COL2A1) in a family with spondyloepiphyseal dysplasia congenita

Defects in type II collagen have been demonstrated in a phenotypic continuum of chondrodysplasias that includes achondrogenesis II, hypochondrogenesis, spondyloepiphyseal dysplasia congenita (SEDC), Kniest dysplasia, and Stickler syndrome. We have determined that cartilage from a terminated fetus with an inherited form of SEDC contained both normal alpha 1(II) collagen chains and chains that lacked amino acids 256-273 of the triple-helical domain. PCR amplification of this region of COL2A1, from genomic DNA, yielded products of normal size, while amplification of cDNA yielded a normal sized species and a shorter fragment missing exon 20. Sequence analysis of genomic DNA from the fetus revealed a G-->T transversion at position +5 of intron 20; the affected father was also heterozygous for the mutation. Allele-specific PCR and heteroduplex analysis of a VNTR in COL2A1 independently confirmed the unaffected status of a fetus in a subsequent pregnancy. Thermodynamic calculations suggest that the mutation prevents normal splicing of exon 20 by interfering with binding of U1 small-nuclear RNA to pre-mRNA, thus leading to skipping of exon 20 in transcripts from the mutant allele. Electron micrographs of diseased cartilage showed intracellular inclusion bodies, which were stained by an antibody to alpha 1(II) procollagen. Our findings support the hypothesis that alpha-chain length alterations that preserve the Gly-X-Y repeat motif of the triple helix result in partial intracellular retention of alpha 1(II) procollagen and produce mild to moderate chondrodysplasia phenotypes.

Linkage mapping of the gene for type III collagen (COL3A1) to human chromosome 2q using a VNTR polymorphism

The gene for the alpha 1 (III) chain of type III collagen, COL3A1, has been previously mapped to human chromosome 2q24.3-q31 by in situ hybridization. Physical mapping by pulsed-field gel electrophoresis has demonstrated that COL3A1 lies within 35 kb of COL5A2. We genotyped the CEPH families at the COL3A1 locus using a pentanucleotide repeat polymorphism within intron 25. We demonstrated significant linkage to 18 anonymous markers as well as the gene for carbamyl phosphate synthetase (CPSI), which we have previously mapped to this region. No recombination was seen between COL3A1 and COL5A2 (Z = 9.93 at theta = 0) or D2S24 (Z = 10.55 at theta = 0). The locus order is (D2S32-D2S138-D2S148)--(D2S24-COL5A2-CO L3A1)--(D2S118-D2S161), with odds of 1:2300 for the next most likely order. These relationships are consistent with the physical mapping of COL3A1 to the distal portion of 2q and place it proximal to CPSI by means of multipoint analysis. These linkage relationships should prove useful in further studies of Ehlers-Danlos syndrome type IV and carbamyl phosphate synthetase I deficiency and provide an additional framework for localizing other genes in this region.

Physical and linkage mapping of the human and murine genes for the alpha 1 chain of type IX collagen (COL9A1)

Type IX collagen, a member of the FACIT family of extracellular matrix proteins, is a heterotrimer composed of three genetically distinct alpha chains. The cDNAs for the human and mouse alpha 1 (IX) chains have been cloned. In this paper we confirm the mapping of the human COL9A1 gene to chromosome 6q12-q13 by fluorescence in situ hybridization utilizing two genomic clones which also contain short tandem repeat polymorphisms. We also report the characterization of these repeats and their incorporation into the chromosome 6 linkage map. The COL9A1 locus shows no recombination with the marker D6Z1 (Z = 27.61 at theta = O) and identifies the most likely locus order of KRAS1P-[D6Z1-COL9A1]-D6S30. In addition, using an interspecific backcross panel, we have mapped murine Col9a1 to mouse chromosome 1. Together with other comparative mapping results, these data suggest that the pericentric region of human chromosome 6 is homologous to the most proximal segment of mouse chromosome 1. These data may facilitate linkage studies with COL9A1 (or Col9a1) as a candidate gene for hereditary chondrodysplasias and osteoarthritis.

An amino acid substitution (Gly853-->Glu) in the collagen alpha 1(II) chain produces hypochondrogenesis

The spondyloepiphyseal dysplasia subclassification of bone dysplasias includes achondrogenesis, hypochondrogenesis, and spondyloepiphyseal dysplasia congenita. The phenotypic expression of these disorders ranges from mild to perinatal lethal forms. We report the detection and partial characterization of a defect in type II collagen in a perinatal lethal form of hypochondrogenesis. Electrophoresis in sodium dodecyl sulfate-polyacrylamide of CB peptides (where CB represents cyanogen bromide) from type II collagen of the diseased cartilage showed a doublet band for peptide alpha 1(II)CB10 and evidence for post-translational overmodification of the major peptides (CB8, CB10, and CB11) seen as a retarded electrophoretic mobility. Peptide CB10 was digested by endoproteinase Asp-N; and on reverse-phase high pressure liquid chromatography, fragments of abnormal mobility were noted. Sequence analysis of a unique peptide D12 revealed a single amino acid substitution (Gly-->Glu) at position 853 of the triple helical domain. This was confirmed by sequence analysis of amplified COL2A1 cDNA, which revealed a single nucleotide substitution (GGA-->GAA) in 5 of 10 clones. Electron micrographs of the diseased cartilage showed a sparse extracellular matrix and chondrocytes containing dilated rough endoplasmic reticulum, which suggested impaired assembly and secretion of the mutant protein. This case further documents the molecular basis of the spondyloepiphyseal dysplasia spectrum of chondrodysplasias as mutations in COL2A1.

Collagen, genes and the skeletal dysplasias on the edge of a new era: a review and update

This article reviews the newly described biochemical (type I and II collagen) abnormalities and specific gene defects in the skeletal dysplasias. The model of the collagen molecule is described and how collagen is processed from procollagen, where and how abnormalities occur, and the types of abnormalities produced (quantitative and qualitative). The only known type I collagen defects producing skeletal dysplasias--osteogenesis imperfecta, as well as the 'family' of established type II collagen disorders--achondrogenesis type II, hypochondrogenesis and spondyloepiphyseal dysplasia congenita are discussed. Finally, using case presentations, the practical approach to these disorders is shown. The importance of these investigations and the subsequent reevaluation of the clinical and radiological findings of specifically delineated skeletal dysplasias are discussed.

Dinucleotide insertion/deletion polymorphism in intron 50 of the COL2A1 gene

Images

Tandem duplication within a type II collagen gene (COL2A1) exon in an individual with spondyloepiphyseal dysplasia

We have characterized a mutation in the type II collagen gene (COL2A1) that produces a form of spondyloepiphyseal dysplasia. The mutation is an internal tandem duplication of 45 base pairs within exon 48 and results in the addition of 15 amino acids to the triple-helical domain of the alpha 1 chains of type II collagen derived from the abnormal allele. Although the repeating (Gly-Xaa-Yaa)n motif that characterizes the triple-helical domain is preserved, type II collagen derived from cartilage of the affected individual contains a population with excessive posttranslational modification, consistent with a disruption in triple-helix structure. The mutation is not carried by either parent, indicating that the phenotype in the affected individual is due to a new dominant mutation. DNA sequence homology in the area of the duplication suggests that the mutation may have arisen by unequal crossover between related sequences, a proposed mechanism in the evolution and diversification of the collagen gene family.

Congenital heart defect in a patient with deletion of chromosome 7q

We describe a premature male infant with a terminal deletion of 7q [del(7) (pter----q34:)]. Manifestations include low birth weight, hypertelorism, bilateral cleft lip and palate, cryptorchidism, and a complex congenital heart defect. The latter consisted of hypoplasia of the main pulmonary artery, absent pulmonary valve, ventricular septal defect, and anomalous right pulmonary artery. We briefly review the spectrum of heart defects seen with chromosome 7 deletions, and comment on the incidence of this unusual heart lesion.

Effect of membrane fluidity upon binding of Electrophorus acetylcholinesterase to lipid vesicles

A previous report (Watkins, M.S., Hitt, A.S. and Bulger, J.E. (1977) Biochem. Biophys. Res. Commun. 79, 640-647) has indicated that the asymmetric forms of Electrophorus acetylcholinesterase bind exclusively to sphingomyelin vesicles through interaction with the collagen-like 'tail' portion of the enzyme. We report here that acetylcholinesterase also binds to phosphatidylcholine vesicles containing saturated fatty acyl chains and to egg phosphatidylcholine vesicles containing cholesterol. This suggests preferential binding of acetylcholinesterase to membranes of lower fluidity. Surface charge of vesicles and density of zwitterionic lipid headgroups do not significantly affect binding of native acetylcholinesterase. The presence of chondroitin sulfate or hyaluronic acid slightly increases the binding of native acetylcholinesterase to sphingomyelin vesicles, while the presence of 1 M NaCl, bovine serum albumin, or tissue fractions enriched in basement membrane diminish binding. The dissociation constant for native acetylcholinesterase and sphingomyelin vesicles is (1.0-1.5) X 10(-7) M, as measured by a flotation binding assay. The globular, 11S form of acetylcholinesterase also binds to lipid vesicles, although not to the same degree as native acetylcholinesterase. This suggests that the collagen tail of the enzyme enhances binding, but is not essential for binding to occur. These results are consistent with the location of acetylcholinesterase on the surface of the postsynaptic plasma membrane in vivo.

Hydrogenation of triton X-100 eliminates its fluorescence and ultraviolet light absorption while preserving its detergent properties

The ultraviolet-light absorption and fluorescence of Triton X-100 were virtually eliminated by hydrogenation to its reduced cyclohexyl analog, RTX-100. The critical micelle concentration of RTX-100 was 12% higher than that of Triton X-100. RTX-100 and Triton X-100 were quite similar in their abilities to extract proteins from human erythrocyte membranes.

9-(5-Carboxypentylamino)-acridine. An affinity adsorbent ligand for Electrophorus acetylcholinesterase

We have developed a simple method for the synthesis of the ligand 9-(5-carboxypentylamino)-acridine and the resulting affinity adsorbent using Sepharose CL-4B. This affinity adsorbent is efficient and specific for purification acetylcholinesterase (acetylcholine acetylhydrolase, EC 3.1.1.7) from Electrophorus electricus electric organ.