The nature and impact of neurobehavioral symptoms in neuronopathic Hunter syndrome

In neuronopathic Hunter syndrome, neurobehavioral symptoms are known to be serious but have been incompletely described. While families face significant stress stemming from this complex and far-reaching array of symptoms, neither caregiver burden nor the neurobehavioral symptoms have been measured comprehensively. We delineated these neurobehavioral characteristics and their impact on the caregiver using multiple approaches. Methods: As part of the initial phase of developing a Hunter-specific behavioral assessment tool, we used multiple methods to obtain data on patient behaviors and caregiver burden, with the intention of drafting item sets for the tool. We utilized 1) caregiver descriptions from focus groups and individual interviews, 2) observations from video-recorded play of affected children, 3) descriptions from historic chart review, 4) consultation with patient advocacy groups and international experts, 5) reports from a caregiver advisory board, and 6) literature review. Results: Neurobehavioral symptoms were diverse and categorized as focus/attention, impulsivity/heightened activity, sensation seeking, emotional/behavioral function, social interaction, and sleep. A significant reported challenge was susceptibility to misinterpretation of some behaviors as defiant or aggressive, particularly if physical. Caregiver burden involved social isolation, exhaustion, stress, and financial and vocational strain. These new descriptions will aid in developing quantitative measures of change in neurobehavioral symptoms and family burden. These descriptions will be the foundation of a neurobehavioral rating scale, which is very much needed to aid in patient management and assess interventions for individuals with neuronopathic Hunter syndrome.

SAAMP 2.0: An algorithm to predict genotype-phenotype correlation of lysosomal storage diseases

Lysosomal storage diseases (LSDs) are a group of genetic disorders, resulting from deficiencies of lysosomal enzyme. Genotype-phenotype correlation is essential for timely and proper treatment allocation. Recently, by integrating prediction outcomes of 7 bioinformatics tools, we developed a SAAMP algorithm to predict the impact of individual amino-acid substitution. To optimize this approach, we evaluated the performance of these bioinformatics tools in a broad array of genes. PolyPhen and PROVEAN had the best performances, while SNP&GOs, PANTHER and I-Mutant had the worst performances. Therefore, SAAMP 2.0 was developed by excluding 3 tools with worst performance, yielding a sensitivity of 94% and a specificity of 90%. To generalize the guideline to proteins without known structures, we built the three-dimensional model of iduronate-2-sulfatase by homology modeling. Further, we investigated the phenotype severity of known disease-causing mutations of the GLB1 gene, which lead to 2 LSDs (GM1 gangliosidosis and Morquio disease type B). Based on the previous literature and structural analysis, we associated these mutations with disease subtypes and proposed a theory to explain the complicated genotype-phenotype correlation. Collectively, an updated guideline for phenotype prediction with SAAMP 2.0 was proposed, which will provide essential information for early diagnosis and proper treatment allocation, and they may be generalized to many monogenic diseases.

Cardiac Ultrasound Findings in Infants with Severe (Hurler Phenotype) Untreated Mucopolysaccharidosis (MPS) Type I

BACKGROUND

Serious cardiac valve disease and left ventricular hypertrophy occur in most untreated older children with severe mucopolysaccharidosis type I. Although it is assumed that early intervention prevents these processes, evaluation of cardiac findings in these infants has not yet been reported.

METHODS

We reviewed echocardiograms of 13 untreated infants < 1 year of age with severe mucopolysaccharidosis type I who had undergone evaluation for hematopoietic cell transplantation. We recorded left ventricular chamber dimensions, septal and posterior wall thicknesses, ventricular function, and aortic sinus diameters. We evaluated mitral and aortic valves for increased thickness, regurgitation, and stenosis.

RESULTS

Average age (7M, 6F) was 221 (range 25-347) days. Left ventricular chamber dimension was ≥2 SD of normal in 3/13; wall thicknesses were ≥2 SD of normal in 2/13 infants. Systolic function was normal. Mitral valves were thickened in all infants; mitral regurgitation was present in 9/13, but significant in only three infants. Aortic valves were thickened in 10/13, but no infant had significant aortic regurgitation. Neither mitral nor aortic stenosis occurred. Aortic roots were dilated to ≥2 SD of normal in 5/13.

CONCLUSIONS

Characteristic cardiac features of severe mucopolysaccharidosis type I can be seen in infancy. Mitral and aortic valve thickening are nearly universally present, even in the youngest infants. In 20-30 % of infants, other abnormalities such as left ventricular dilation, increased wall thickness, and mild mitral/aortic regurgitation may occur. Aortic root dilation is a frequent finding. Early intervention with enzyme replacement therapy may minimize the incidence and severity of cardiac findings in these infants.

SUMMARY

Serious cardiac valve disease and left ventricular hypertrophy occur in most untreated older children with severe mucopolysaccharidosis type I. Although it is assumed that early intervention prevents these processes, evaluation of cardiac findings in these infants has not yet been reported. In our study of 13 infants with severe untreated MPS I < 1 year of age, mitral and aortic valve thickening was nearly universally present and aortic root dilation was frequent. Despite this, we found a lower incidence of left ventricular hypertrophy and both a lower incidence and milder expression of mitral and aortic valve dysfunction than previously reported in older children. These findings suggest that earlier intervention, including neonatal screening, may be of benefit to children with severe MPS I.

Increased longevity and metabolic correction following syngeneic BMT in a murine model of mucopolysaccharidosis type I

Mucopolysaccharidosis type I (MPS I) is an autosomal recessive inherited disease caused by deficiency of the glycosidase α-L-iduronidase (IDUA). Deficiency of IDUA leads to lysosomal accumulation of the glycosaminoglycans (GAG) heparan and dermatan sulfate and associated multi-systemic disease, the most severe form known as Hurler syndrome. Since 1981, the treatment of Hurler patients has often included allogeneic bone marrow transplantation (BMT) from a matched donor. However, mouse models of the disease were not developed until 1997. To further characterize the MPS I mouse model and to study the effectiveness of BMT in these animals, we engrafted a cohort (n=33) of 4–8 week-old Idua^−/− animals with high levels (88.4 ± 10.3%) of wild-type donor marrow. Engrafted animals displayed an increased lifespan, preserved cardiac function, partially restored IDUA activity in peripheral organs, and decreased GAG accumulation in both peripheral organs and in the brain. However, levels of GAG and GM3 ganglioside in the brain remained elevated in comparison to unaffected animals. Since these results are similar to those observed in Hurler patients following BMT, this murine transplantation model can be used to evaluate the effects of novel, more effective methods of delivering IDUA to the brain as an adjunct to BMT.

Molecular basis of mucopolysaccharidosis type IIIB in emu (Dromaius novaehollandiae): an avian model of Sanfilippo syndrome type B

Sanfilippo syndrome type B, or mucopolysaccharidosis (MPS) IIIB, is an autosomal recessive disease caused by a deficiency of lysosomal alpha-N-acetylglucosaminidase (NAGLU). In Dromaius novaehollandiae (emu), a progressive neurologic disease was recently discovered, which was characterized by NAGLU deficiency and heparan sulfate accumulation. To define the molecular basis, the sequences of the normal emu NAGLU cDNA and gene were determined by PCR-based approaches using primers for highly conserved regions of evolutionarily distant NAGLU homologues. It was observed that the emu NAGLU gene is structurally similar to that of human and mouse, but the introns are considerably shorter. The cDNA had an open reading frame (ORF) of 2259 bp. The deduced amino acid sequence is estimated to share 64% identity with human, 63% with mouse, 41% with Drosophila, 39% with tobacco, and 35% with the Caenorhabditis elegans enzyme. Three normal and two affected emus were studied for nucleotide sequence covering the entire coding region and exon-intron boundaries. Unlike the human gene, emu NAGLU appeared to be highly polymorphic: 19 variations were found in the coding region alone. The two affected emus were found to be homozygous for a 2-bp deletion, 1098-1099delGG, in exon 6. The resulting frameshift predicts a longer ORF of 2370 bp encoding a polypeptide with 37 additional amino acids and 387 altered amino acids. The availability of mutation screening in emus now permits early detection of MPS IIIB in breeding stocks and is an important step in characterizing this unique, naturally occurring avian model for the development of gene transfer studies.

Retroviral vector design studies toward hematopoietic stem cell gene therapy for mucopolysaccharidosis type I

To optimize a gene transfer system for hematopoietic stem cell gene therapy of patients with mucopolysaccharidosis (MPS) type I, 10 retroviral vectors were constructed to express the human alpha-L-iduronidase (IDUA) cDNA. These vectors were designed to evaluate the potential effects of specific promoters, the addition of selectable markers, and the use of multiple promoters versus an internal ribosome entry site for expression of IDUA and selectable maker genes. The effect of vector design was investigated in primary patient fibroblasts (F(MPS)) or murine fibroblast cell lines; while overall comparison of transgene expression was determined in patients' peripheral blood lymphocytes (PBL(MPS)) and CD34+ progenitors (PBPC(MPS)). We observed that the human PGK promoter introduced the highest IDUA activity per 1% relative transgene frequency in F(MPS). Use of the same promoter to separately regulate both the therapeutic gene and a drug-resistance gene resulted in decreased expression of the unselected gene. Co-selection using bicistronic vectors not only increased the number of transductants, but also elevated transgene expression under selective pressure in transgene-positive progenitors. Bicistronic vector LP1CD overcame down-regulation and practically introduced the highest IDUA level in unselected PBL(MPS) and an intermediate level in PBPC(MPS). These studies provide a better understanding of factors contributing to efficient gene expression in hematopoietic cells.

Canine heparan sulfate sulfamidase and the molecular pathology underlying Sanfilippo syndrome type A in Dachshunds

Heparan sulfate sulfamidase (HSS) is a lysosomal exohydrolase that, when deficient, results in intralysosomal accumulation of heparan sulfate and the clinical phenotype of Sanfilippo syndrome type A. The first animal disease homolog of human Sanfilippo syndrome type A has been recently indentified in Dachshund littermates. To identify the molecular defect, the nucleotide sequences of the normal canine HSS gene and cDNA were determined using PCR-based approaches. The coding region showed 87% nucleotide homology, and 89% amino acid sequence homology, with human HSS. All exon-intron borders were conserved. Sequence analysis of the entire coding region with exon-intron boundaries was performed in the propositus, a healthy littermate, and six unrelated normal dogs. Comparison revealed a 3-bp deletion, 737-739delCCA, resulting in the loss of threonine at position 246 in both alleles of the propositus and in one allele of a healthy littermate. Prediction of the three-dimensional structure of canine HSS, based on homology with human arylsulfatases A and B, suggested the pathogenic effect of this deletion. Six other sequence variations in exons, and 10 in introns, appear to be benign polymorphisms. This study supports the potential development of a canine model of Sanfilippo syndrome type A to evaluate gene therapy for this disorder.

"Supercharged Cells" for delivery of recombinant human iduronate-2-sulfatase

Expression of iduronate-2-sulfatase (IDS) from three different promoters in four retroviral vectors was studied in peripheral blood lymphocytes from patients with Hunter syndrome (PBL(MPS)), i.e., the LTR in vectors L2SN and L2, avian beta-actin promoter in LB2, and the CMV early promoter in LNC2. PBL(MPS) were exposed to packaging cell supernatant resulting in transduction frequencies ranging 10-fold from 5 to 49%. Surprisingly, IDS activities were equally high in all transduced lymphocyte populations: 515 U/mg/h in PBL(MPS)-L2SN, 734 in PBL(MPS)-LB2, 352 in PBL(MPS)-L2, and 389 in PBL(MPS)-LNC2 compared to controls (<10 in PBL(MPS)-LXSN or PBL(MPS)). The half-life of endocytosed IDS in PBL(MPS) was 1.9 days. However, the level of lymphocyte IDS activity from proviral expression was found to be only a fraction of the total, a large portion being derived from reuptake of enzyme from murine packaging cells, i.e., a "second source" of enzyme. Therefore, measurement of transgene lysosomal enzyme soon after exposure of target cells to vector supernatant may yield a gross overestimate of long-term transgene expression by transduced cells. Nevertheless, patient fibroblasts cocultured with transduced PBL(MPS) had reduced (35)SO(4)-GAG accumulation, levels similar to those of normal fibroblasts. These studies revealed a broadly applicable phenomenon: cells can be charged with a lysosomal enzyme to levels much higher than those found in nature. By "supercharging" cells with a lysosomal protein (or other molecule bearing the mannose-6-phosphate ligand), such cells may be exploited as vehicles for systemic delivery of therapeutic or diagnostic agents.

Combined ultrafiltration-transduction in a hollow-fiber bioreactor facilitates retrovirus-mediated gene transfer into peripheral blood lymphocytes from patients with mucopolysaccharidosis type II

The process of growing and transducing large quantities of human primary peripheral blood lymphocytes (PBLs) with high gene transfer efficiency continues to be one of the major challenges for clinical and experimental gene therapy. Toward developing a clinical trial of lymphocyte gene therapy for mucopolysaccharidosis type II (i.e., Hunter syndrome), we investigated a novel method that exploited the innate capability of a hollow-fiber bioreactor system to filter large quantities of vector supernatant and facilitate transduction. An aliquot (5 x 10(7)) of PBL apheresis product was precultured in a gas-permeable culture bag or a bioreactor, and then transduced with a retroviral vector L2SN containing the iduronate-2-sulfatase (IDS) and neomycin resistance genes. We observed that the total number of PBLs could be expanded up to 187-fold, yielding up to 10(10) cells at the end of a 7-day culture period. The multiplicity of infection could be increased (up to 20-fold) by ultrafiltrating a large volume of vector supernatant through the semipermeable membrane of this system. A high level of transduction efficiency (up to 57%) was achieved, resulting in IDS enzyme activity as high as 1250 U/mg/hr in transduced PBL(MPS) 15 days after transduction. This level was markedly increased from that of nontransduced cells (<3 U/mg/hr) and was even greater than that of normal PBLs (mean, 809; n = 10). After 12 days of G418 selection, PBL(MPS) transductants exhibited a proviral IDS enzyme level approximately threefold higher than that in normal PBLs. These results indicated that the hollow-fiber bioreactor could be used to culture and transduce human primary PBLs in clinically useful quantities with relatively high gene transfer efficiency and transgene expression.

Closed hollow-fiber bioreactor: a new approach to retroviral vector production

BACKGROUND

The ability to obtain high-titer and large quantities of retroviral vector production in a 'closed' system would have profound implications in clinical and experimental gene therapy.

METHODS

We studied the cell growth and vector production of three retroviral packaging cell lines in a variety of conditions using hollow-fiber bioreactors designed as an 'artificial capillary system' (ACS) and enhanced with the application of a hermetically sealing device for sterile welding of connecting plastic tubings. Vector titer, fetal bovine serum (FBS) concentration, volume and the duration of productivity were assessed to optimize vector production.

RESULTS

In this pilot study, we observed that retroviral vector production (frozen-and-thawed) from cultures containing as low as 2.5% FBS yielded titers up to 2.2 x 10(7) cfu/ml, 14.4-fold higher than titers obtained from control dish cultures. Up to 3 liters of vector supernatant were generated during a 2-month large-scale production run. There was a potential to double this volume of higher-titer supernatant by increasing the frequency of harvest. It seemed that a lower metabolic rate (i.e. lactate production) in the packaging cell culture was associated with higher vector producing ability.

CONCLUSIONS

These data demonstrated the feasibility of producing retroviral vector with enhanced titers and clinically useful quantities in a 'closed' ACS. Thus a new approach for large-scale retroviral vector production is developed.

Real-time quantitative polymerase chain reaction to assess gene transfer

Accurate quantification of gene transfer (or gene correction) is a universal challenge in the field of gene therapy. In developing a clinical trial of lymphocyte gene therapy for Hunter syndrome (mucopolysaccharidosis type II), methods using Southern blot or automated DNA sequencing technology were employed, but found to be laborious and subject to considerable variation. As an alternative approach, we explored a real-time kinetic PCR assay appropriate to new instrumentation (PE Biosystems model 7700). A TaqMan probe was designed to hybridize directly across the exon 2-exon 3 junction of the iduronate-2-sulfatase transgene cDNA. In this assay system, cDNA from the retroviral vector L2SN generates a PCR product that is 84 nucleotides long and readily quantified by TaqMan probe binding and subsequent cleavage. Evaluation of this method demonstrated sensitivity over at least 5 logs with respect to the standard (vector plasmid pL2SN). There was no detectable signal from genomic DNA from nontransduced cells, thus indicating the specificity of this assay. The sample preparation method used to prepare specimens was a relatively simple cell lysis procedure, without DNA extraction, and represents a significant advancement over the more complex methods of DNA extraction that are typically used for such assays. This specific assay, and comparison to previous methods, illustrates the utility of a new method that is readily generalized to many gene therapy studies, and that has the potential to be extended to measure gene expression by means of quantitative RT-PCR.

Enzymatic correction and cross-correction of mucopolysaccharidosis type I fibroblasts by adeno-associated virus-mediated transduction of the alpha-L-iduronidase gene

Mucopolysaccharidosis type I (MPS I), a deficiency in the lysosomal enzyme alpha-L-iduronidase (IDUA), is characterized by skeletal abnormalities, hepatosplenomegaly and neurological dysfunction. To evaluate the potential for treatment of the disease using a gene delivery approach, recombinant adeno-associated virus (rAAV) vectors were constructed and evaluated for expression of the human IDUA cDNA in transduced cells. 293 cells transduced with these AAV vectors contained IDUA activity at 0.5 to 1.4 micromol/mg x hr, 50- to 140-fold above background (control-transduced) levels. In time course studies of transduced 293 cells, IDUA activity levels peaked 1 week after transduction and persisted at 50% of the peak level for at least 6 weeks. Transduced MPS I fibroblasts also expressed high levels of IDUA activity (114-290 nmol/mg x hr), which persisted for at least 3 weeks in the absence of selection. In addition, transduced MPS I fibroblasts were capable of clearing intracellular radiolabeled glycosaminoglycan (GAG). As a test of the ability of these vectors to mediate metabolic cross-correction, transduced HuH7 human hepatoma cells were demonstrated to release enzyme that was subsequently taken up by nontransduced MPS I fibroblasts. These results illustrate the effectiveness of AAV vectors for delivery and expression of human IDUA gene sequences and for potential treatment of MPS I.

Retroviral transduction and expansion of peripheral blood lymphocytes for the treatment of mucopolysaccharidosis type II, Hunter's syndrome

BACKGROUND

Gene therapy using autologous peripheral blood lymphocytes (PBLs) has been used to produce adenosine deaminase with which to treat patients with severe combined immunodeficiency. Patients with mucopolysaccharidosis type II (MPS II) lack iduronate-2-sulfatase (IDS), and serial PBL gene therapy may benefit these patients.

STUDY DESIGN AND METHODS

The purpose of these studies was to develop a method to transduce PBLs from a patient with MPS II by using a retroviral vector, LS2N, containing the IDS gene. PBLs were collected by apheresis and cryopreserved in aliquots for the performance of multiple transductions and expansions. The PBLs were expanded in number and then transduced in a hollow-fiber bioreactor (HFBR). Additional culture allowed for further expansion.

RESULTS

Fresh PBLs (6.2 x 10(7)) from a patient with MPS II were transduced with L2SN and expanded in an HFBR with an extracapillary space of 11 mL. After 10 days of culture, 4.1 x 10(9) cells were harvested. Cryopreserved MPS II PBLs could not be reliably expanded if they were placed in the HFBR immediately after being thawed; however, cells were successfully transduced and expanded in the HFBR if they were first cultured in a bag. To increase the cell yield, PBLs were expanded in a 60-mL HFBR after transduction and expansion in an 11-mL HFBR. In four separate experiments, 2 x 10(8) cryopreserved PBL were cultured for 3 days in a bag and transferred to an 11-mL HFBR, where they were transduced daily with L2SN for 3 days and then expanded for 4 additional days. Cells were then transferred into a 60-mL HFBR and expanded for an additional 7 days. In the four experiments, 5.5 x 10(9), 7.4 x 10(9), 1.12 x 10(9), and 19.4 x 1(9) cells were produced. The vector was detected in the harvested cells, but the proportion of cells transduced was less than 2.5 percent, the lowest standard used in the assay. In two of the experiments, cells harvested from the HFBR were used in a gene therapy clinical trial.

CONCLUSION

Autologous cryopreserved PBLs can be transduced and expanded to produce >1 x 10(10) cells. This procedure is being used for a Phase I/II clinical trial of lymphocyte gene therapy.

Mobilization and transduction of peripheral blood progenitor cells in patients with mucopolysaccharidosis I

Mucopolysaccharidosis type I (MPS I) results from a deficiency of alpha-L-iduronidase enzyme (IDUA), an enzyme responsible for the catabolism of glycosaminoglycans. Genetically modified progenitor cells may permit a therapeutic effect similar to that obtained from allogeneic BMT without the associated risks. To that end, CD34+ peripheral blood hematopoietic progenitor cells from patients with MPS I were mobilized using G-CSF, collected by apheresis, and enriched using avidin-biotin separation techniques. These cells were cultured in a hollow fiber bioreactor and transduced with a retroviral vector (LP1CD) containing the cDNA for human IDUA and a murine dihydrofolate reductase (DHFR) enzyme. Approximately 4%-16% of the colonies expressed methotrexate drug resistance. Expression of the IDUA enzyme in the progenitor cells was initially high and declined after approximately 10 days of culture. These results indicate that PBPC from patients with MPS I can be mobilized, isolated, enriched, and transduced with a therapeutic gene.

NAGLU mutations underlying Sanfilippo syndrome type B

Sanfilippo syndrome type B (mucopolysaccharidosis III B) is a rare autosomal recessive disease caused by deficiency of alpha-N-acetylglucosaminidase, one of the enzymes required for the lysosomal degradation of heparan sulfate. The gene for this enzyme, NAGLU, recently was isolated, and several mutations were characterized. We have identified, in amplified exons from nine fibroblast cell lines derived from Sanfilippo syndrome type B patients, 10 additional mutations: Y92H, P115S, Y140C, E153K, R203X, 650insC, 901delAA, P358L, A664V, and L682R. Four of these mutations were found in homozygosity, and only two were seen in more than one cell line. Thus, Sanfilippo syndrome type B shows extensive molecular heterogeneity. Stable transfection of Chinese hamster ovary cells, by cDNA mutagenized to correspond to the NAGLU missense mutations, did not yield active enzyme, demonstrating the deleterious nature of the mutations. Nine of the 10 amino acid substitutions identified to date are clustered near the amino or the carboxyl end of alpha-N-acetylglucosaminidase, suggesting a role for these regions in the transport or function of the enzyme.

Genotype-phenotype correspondence in Sanfilippo syndrome type B

Sanfilippo syndrome type B, or mucopolysaccharidosis type IIIB, results from defects in the gene for alpha-N-acetylglucosaminidase (NAGLU); only a few mutations have been described. To rapidly identify most NAGLU mutations, an automated sequencing procedure was developed for analysis of the entire coding region, including exon-intron borders. By this method, eight affected families were studied, and the mutations in all 16 alleles were identified, more than doubling the number of published mutations for this gene. Eight mutations were described for the first time: five missense mutations (Y140C, Y455C, P521L, S612G, and R674C), two nonsense mutations (W675X and Q706X), and one 24-nucleotide insertion. Currently, 36% of all point mutations (8 of 22 alleles) involve R674, a codon having a CpG dinucleotide in the critical initial position. Other mutations were found in more than one family, raising the possibility that some may be relatively common and, possibly, ancient mutations. Six new nonpathological mutations were also identified and likely represent polymorphic variants of the NAGLU gene, two of which might alter enzyme level. Establishing genotype-phenotype relationships will be vital in the evaluation of experimental treatments such as gene therapy.

Syringomyelia in mucopolysaccharidosis type VI (Maroteaux-Lamy syndrome): imaging findings following bone marrow transplantation

We present the imaging findings in a patient with mucopolysaccharidosis (MPS) type VI (Maroteaux-Lamy syndrome) who developed holocord syringomyelia. This represents the only reported case of syrinx formation in a child with MPS VI. Clinical, neurologic and spinal magnetic resonance imaging findings are presented. The patient has maintained a stable clinical and neurologic course over the period following allogeneic bone marrow transplant.

Retroviral transduction of peripheral blood leukocytes in a hollow-fiber bioreactor

BACKGROUND

Peripheral blood white cells (leukocytes) (PBLs) have been used as effective targets for genetic manipulation by transduction with retroviruses in open systems. A semi-closed hollow-fiber bioreactor was tested for culturing and transducing lymphocytes.

STUDY DESIGN AND METHODS

PBLs were isolated from five healthy donors, and 5 x 10(7) cells were cultured in hollow-fiber bioreactors for 4 days after stimulation with anti-CD3 in medium containing 200 units per mL of recombinant interleukin 2. Transduction with retroviral vector containing the gene for iduronate-2-sulfatase and G 418 resistance, L2SN, was performed daily on Days 4, 5, 6, and 7, and the cells were expanded for an additional 3 days.

RESULTS

PBLs from three donors were harvested from the bioreactor after transduction and expansion, and 4.5 x 10(9), 7.0 x 10(9), and 2.9 x 10(9) cells were recovered, representing 90-, 136-, and 58-fold expansions. The transduction frequency of L2SN was 10, 5, and 1 percent, respectively. For additional expansion of PBLs, in two cases the bioreactor was reinoculated with 5 x 10(7) cells, which were expanded again for 16 and 8 days, respectively, yielding 1.4 x 10(9) and 3.1 x 10(9) cells, which reflected an additional 28- and 62-fold expansion of cells. PBLs from two other donors were transduced and expanded in the bioreactor, and then 0.8 mg per mL of G 418 was added to the medium in an attempt to enrich the transduced population. Although 2.5 and 10 percent of the cells were transduced, cell death and absence of expansion in the presence of G 418 resulted in final cell lots with viabilities of only 4 and 8 percent. In all cases, the harvested cells tested negative in bacterial and fungal cultures.

CONCLUSION

Hollow-fiber bioreactors are an efficient and effective system for the retroviral transduction and expansion of PBLs for clinical gene therapy.

Clinical and biochemical heterogeneity in females of a large pedigree with ornithine transcarbamylase deficiency due to the R141Q mutation

A large family with ornithine transcarbamylase deficiency due to mutation R141Q was ascertained through a propositus who presented with acute neonatal hyperammonemic coma. Of 13 females at risk, 11 were evaluated clinically and had laboratory studies performed. Seven were found to be heterozygous for the mutation. Of these seven, five had chronic clinical symptoms and two were asymptomatic. None of the heterozygotes had elevated plasma ammonia on random testing. Of the five symptomatic females, three had markedly elevated plasma glutamine levels on random testing, while two had levels in the upper range of normal. Plasma citrulline and arginine levels were somewhat lower in the symptomatic individuals but still within the normal range. Five heterozygotes who were tested had either spontaneous orotic aciduria or elevated orotic acid following ingestion of allopurinol, whereas one unaffected female and one unaffected male had normal allopurinol tests. A higher than expected proportion of female heterozygous for the R141Q mutation were clinically and biochemically symptomatic but remained undiagnosed for many years. Plasma glutamine determination and allopurinol testing should be performed in females who present with a combination of relatively non-specific symptoms detailed in this report.

Preclinical studies of lymphocyte gene therapy for mild Hunter syndrome (mucopolysaccharidosis type II)

To explore the feasibility of ex vivo lymphocyte gene therapy for mild Hunter syndrome (mucopolysaccharidosis type II), we evaluated retrovirus-mediated gene transfer of the iduronate-2-sulfatase (IDS) coding sequence into peripheral blood lymphocytes from enzyme-deficient individuals (PBLMPS). Moloney murine leukemia virus-derived retroviral vectors were constructed by inserting the IDS cDNA under transcriptional regulation of the long terminal repeat (LTR) (in vector L2SN) or the cytomegalovirus (CMV) early promoter (vector LNC2). High-titer virus-producer cells were generated using amphotropic PA317 packaging cells. After 3 days of in vitro stimulation of T lymphocytes with anti-CD3 antibody and interleukin-2 (IL-2), PBLMPS were transduced once on each of the next 3 days. Seven to 21 days later, cultured PBLMPS were evaluated for gene transfer and IDS specific activity. Heterogeneous populations of L2SN-transduced PBLMPS had high levels of IDS enzyme activity (456 U/mg per hr +/- SD 292) despite a gene transfer efficiency of 5% or less. Owing to overexpression of IDS in that percentage of PBLMPS successfully transduced, IDS activity was increased above the deficiency found in patients with Hunter syndrome (< 20 U/mg per hr) to a level comparable with that of normal individuals (mean activity of uncultured normal leukocytes 807 U/mg per hr; SD 252). Reduced 35SO4-glucosaminoglycan (GAG) accumulation was observed in PBLMPS that had been transduced with L2SN, or when PBLMPS were grown in medium that had been "conditioned" by growth of L2SN-transduced cells. This latter result indicated that metabolic cross-correction occurred by means of intercellular enzyme transfer. These studies of retrovirus-mediated expression and metabolic correction, finding near-normal levels of IDS in cultured PBLMPS and metabolic correction, demonstrate the potential for treatment of mild, nonneuropathic Hunter syndrome by means of ex vivo lymphocyte gene therapy.

Molecular genetic defect underlying alpha-L-iduronidase pseudodeficiency

Mucopolysaccharidosis type I (i.e., Hurler, Hurler-Scheie, and Scheie syndromes) and type II (i.e., Hunter syndrome) are lysosomal storage disorders resulting from alpha-L-iduronidase (IDUA) deficiency and iduronate-2-sulfatase (IDS) deficiency, respectively. The a priori probability that both disorders would occur in a single individual is approximately 1 in 5 billion. Nevertheless, such a proband was referred for whom clinical findings (i.e., a male with characteristic facies, dysostosis multiplex, and mental retardation) and biochemical tests indicated these concomitant diagnoses. In repeated studies, leukocyte 4 methylumbelliferyl-alpha-L-iduronidase activities in this kindred were as follows: <1.0 nmol/mg protein/h in the proband and proband's clinically normal sister; 45.3 in mother; and 45.7 in father (normal range 65.0-140). Leukocyte L-O-(alpha-iduronate-2-sulfate)-(1->4)-D-O-2,5-anhydro[1-3H]mannitol-6- sulfate activities were as follows: 0.0 U/mg protein/h in the proband; 5.7 in his sister; 4.9 in mother; and 15.0 in father (normal range 11.0-18.4). Multiple techniques, including automated sequencing of the entire IDS and IDUA coding regions, were employed to unravel the molecular genetic basis of these intriguing observations. The common IDS mutation R468W was identified in the proband, his mother, and his sister, thus explaining their biochemical phenotypes. Additionally, the proband, his sister, and his father were found to be heterozygous for a common IDUA mutation, W402X. Notably, a new IDUA mutation A300T was also identified in the proband, his sister, and his mother, accounting for reduced IDUA activity in these individuals; the asymptomatic sister, whose cells demonstrated normal glycosaminoglycan metabolism, is thus a compound heterozygote for W402X and the new allele. This A300T mutation is the first IDUA pseudodeficiency gene to be elucidated at the molecular level.

Molecular diagnosis of mucopolysaccharidosis type II (Hunter syndrome) by automated sequencing and computer-assisted interpretation: toward mutation mapping of the iduronate-2-sulfatase gene

Virtually all mutations causing Hunter syndrome (mucopolysaccharidosis type II) are expected to be new mutations. Therefore, as a means of molecular diagnosis, we developed a rapid method to sequence the entire iduronate-2-sulfatase (IDS) coding region. PCR amplicons representing the IDS cDNA were sequenced with an automatic instrument, and output was analyzed by computer-assisted interpretation of tracings, using Staden programs on a Sun computer. Mutations were found in 10 of 11 patients studied. Unique missense mutations were identified in five patients: H229Y (685C-->T, severe phenotype); P358R (1073C-->G, severe); R468W (1402C-->T, mild); P469H (1406C-->A, mild); and Y523C (1568A-->G, mild). Non-sense mutations were identified in two patients: R172X (514C-->T, severe) and Q389X (1165C-->T, severe). Two other patients with severe disease had insertions of 1 and 14 bp, in exons 3 and 6, respectively. In another patient with severe disease, the predominant (> 95%) IDS message resulted from aberrant splicing, which skipped exon 3. In this last case, consensus sequences for splice sites in exon 3 were intact, but a 395 C-->G mutation was identified 24 bp upstream from the 3' splice site of exon 3. This mutation created a cryptic 5' splice site with a better consensus sequence for 5' splice sites than the natural 5' splice site of intron 3. A minor population of the IDS message was processed by using this cryptic splice site; however, no correctly spliced message was detected in leukocytes from this patient. The mutational topology of the IDS gene is presented.

Dense peripheral corneal clouding in Scheie syndrome

A 28-year-old woman with Scheie syndrome (MPS I-S) presented with the unusual feature of extremely dense peripheral corneal clouding, allowing maintenance of good central visual acuity. Characteristic systemic features, an abnormal electroretinogram result, and absent alpha-L-iduronidase activity confirmed the diagnosis despite the unusual corneal pattern of clouding.

Light and electron microscopic features of the liver in mucopolysaccharidosis

The mucopolysaccharidosis (MPS) diseases lead to the accumulation of glycosaminoglycan in many tissues. In this study 19 MPS I, one MPS II, five MPS III, and two MPS VI patients underwent liver biopsy for light and electron microscopic examination. Electron microscopy was performed for all 27 specimens. Twenty-six specimens were studied by light microscopy, and the slides were stained with colloidal iron and alcian blue in 26 and six biopsy specimens, respectively. By hematoxylin-eosin stain 20 of 26 cases showed hepatocellular dilatation with rarefaction of the cytoplasm; the Kupffer cells were unremarkable. Twenty-four and 25 of the 26 biopsy specimens showed substantial colloidal iron staining of hepatocytes and Kupffer cells, respectively. The six biopsy specimens prepared with alcian blue stain showed no reactivity of any cell type. Electron microscopy revealed characteristic membrane-bound inclusions within the hepatocytes and Kupffer cells of all 27 biopsy specimens. Of 19 cases in which Ito cells were identified, 18 included cells containing similar inclusions. Twenty of 27 biopsy specimens also demonstrated the hepatocellular accumulation of lipid droplets. Although there were no absolute distinguishing features among the various MPS diseases, the two MPS VI cases showed glycosaminoglycan inclusions that were fewer in number, smaller, and contained more abundant lipofusion than those associated with the other MPS types.

A new mtDNA mutation in the tRNA(Leu(UUR)) gene associated with maternally inherited cardiomyopathy

We report a new mutation, a C to T transition at nt 3303 of mtDNA, in seven members of a family with cardiomyopathy and myopathy: the proband and two siblings had fatal infantile cardiomyopathy, whereas in three maternal relatives the disease manifested later in life as sudden cardiac death or as mitochondrial myopathy with cardiomyopathy. The mutation was homoplasmic in all tissues (including blood) from the proband and her brother, but heteroplasmic in blood from five oligosymptomatic or asymptomatic maternal relatives. This mutation disrupts a conserved base pair in the aminoacyl stem of the tRNA(Leu(UUR)). None of 70 controls carried the mutation. Our data indicate that this mutation is the genetic cause of the disorder in this family, and confirm that the tRNA(Leu(UUR)) is a "hot spot" for mutations in mtDNA.

Metabolic correction and cross-correction of mucopolysaccharidosis type II (Hunter syndrome) by retroviral-mediated gene transfer and expression of human iduronate-2-sulfatase

To explore the possibility of using gene transfer to provide iduronate-2-sulfatase (IDS; EC 3.1.6.13) enzyme activity for treatment of Hunter syndrome, an amphotropic retroviral vector, L2SN, containing the human IDS coding sequence was constructed and studied for gene expression in vitro. Lymphoblastoid cell lines (LCLs) from patients with Hunter syndrome were transduced with L2SN and expressed high levels of IDS enzyme activity, 10- to 70-fold higher than normal human peripheral blood leukocytes or LCLs. Such L2SN-transduced LCLs failed to show accumulation of 35SO4 into glycosaminoglycan (35SO4-GAG), indicating that recombinant IDS enzyme participated in GAG metabolism. Coculture of L2SN-transduced LCLs with fibroblasts from patients with Hunter syndrome reduced the accumulation of 35SO4-GAG. These results demonstrated retroviral-mediated IDS gene transfer into lymphoid cells and the ability of such cells to provide recombinant enzyme for intercellular metabolic cross-correction.

Long-term outcome of Hurler syndrome following bone marrow transplantation

Previous reports suggested a therapeutic response of lysosomal storage diseases such as Hurler syndrome following bone marrow transplantation. However, a clearer understanding of outcome has awaited long-term follow-up. We evaluated prospectively 11 consecutive patients with Hurler syndrome receiving marrow from an HLA-identical sib donor between September 1983-October 1988. Follow-up evaluations included assessment of donor engraftment by restriction fragment polymorphism analysis, determination of leukocyte alpha-L-iduronidase level, measurement of lumbar cerebrospinal fluid (CSF) pressure, computerized tomography (CT) of the brain, and psychometric testing. In this series there was a survival rate of 9/11 (82%) with all survivors showing complete (7 patients) or partial (2 patients) donor engraftment. Prospective longitudinal evaluation of the 9 surviving children, now 3.8-8.9 years posttransplantation (median 5.5) demonstrated persistence of previously deficient leukocyte alpha-L-iduronidase at levels reflecting the donor genotype and degree of donor engraftment. Urinary glycosaminoglycan excretion declined to near-normal within 5 months of donor engraftment. Prior to treatment, 7 of 8 children studied were found to have occult intracranial hypertension (lumbar CSF pressure > 20 cm CSF); however, all surviving children attained normal or near-normal pressure within 18 months of donor engraftment. Longterm follow-up CT imaging of the brain did not show progressive volume loss (cerebral atrophy) after donor engraftment. Of 9 survivors, 4 children having a developmental quotient (DQ, Mental Development Index on Bayley Scales of Infant Development) above 80 prior to transplantation subsequently maintained IQ scores above this level. However, 5 patients with lower pretransplant DQ scores now have significant cognitive deficits and attention deficit hyperactivity disorder. Progressive brain damage resulting from communicating hydrocephalus may be prevented by successful engraftment. Early transplantation of children with Hurler syndrome who have normal intelligence is likely to have the clearest benefit because long-term intellectual outcome will be limited by brain damage which has occurred prior to treatment.

Assessment of iduronate-2-sulfatase mRNA expression in Hunter syndrome (mucopolysaccharidosis type II)

Eight unrelated patients with Hunter syndrome were investigated for expression of iduronate-2-sulfatase (IDS) mRNA by reverse transcription (RT) linked to polymerase chain reaction (PCR), or RT-PCR. The entire coding region was studied by amplification of two overlapping segments of 0.7 and 1.1 kb. Seven children with Hunter syndrome had PCR products indistinguishable in size from normal. One patient, with clinically severe disease, did not produce either IDS product although mRNA for a control gene was readily amplified. This method rapidly identifies patients having absent or qualitatively abnormal IDS mRNA and may be useful in investigating genotype-phenotype relationships.

Pathology of the liver in mucopolysaccharidosis: light and electron microscopic assessment before and after bone marrow transplantation

Serial liver biopsies were obtained in 20 patients undergoing bone marrow transplantation (BMT) for mucopolysaccharidosis (MPS). The 13 patients with MPS I, one with MPS II, four with MPS III, and two with MPS VI underwent liver biopsy prior to and from 1 to 37 months after BMT. The amount of accumulated glycosaminoglycan (GAG) was assessed by semiquantitation of Kupffer cell staining with colloidal iron and by counting the number of hepatocellular GAG-containing lysosomes in electron micrographs. Eleven of 13 patients with MPS I achieved engraftment, and 10 of the 11 cleared the Kupffer cells and hepatocytes of GAG by 3 to 19 months post-BMT. Two patients with autologous recovery demonstrated persistent hepatocyte inclusions. The three patients with MPS II and MPS VI engrafted and showed clearance of hepatocyte and Kupffer cell GAG by 7 months after BMT. All four patients with MPS III engrafted. Although the Kupffer cells in these patients were cleared of GAG by 12 months after BMT, hepatocellular inclusions persisted in all four. For MPS I, II and VI, donor engraftment was associated with resolution of lysosomal storage material in donor-derived Kupffer cells and untransplanted hepatocytes, indicative of transcellular metabolic correction. Failure of hepatocyte clearance in one case of MPS I and all patients with MPS III suggested a diminished capacity of the graft-derived enzyme to enter the hepatocyte lysosomes in these patients.

Heterozygosity for the "DN allele" (G533-greater than A) of the beta-hexosaminidase alpha subunit gene identified by direct DNA sequencing in a family with the B1 variant of GM2-gangliosidosis

A new patient having clinical, pathologic and biochemical features of the exceedingly rate B1 variant of GM2-gangliosidosis is described. This patient, of northern European (non-Ashkenazi) ancestry, is the first affected child of this ethnic background available for molecular genetic analysis; thus, she represented an opportunity to identify a new mutation associated with this phenotype or, conversely, to further characterize the DN allele of the hexosaminidase alpha gene (G533-greater than A) as a more widely distributed mutation not previously observed in this gene pool. As a means of rapid analysis, we report a strategy for PCR amplification and direct DNA sequencing of exon 5 of the hexosaminidase alpha gene, the most frequent site of mutations in this condition. With this technique, the father of the affected child was determined to be heterozygous for the DN allele, while the mother was found to have only the normal sequence in this region. This observation further extends the known geographic and ethnic distribution of this mutation, and suggests the likelihood that the DN allele has been derived by multiple independent mutational events.

Adams-Oliver syndrome revisited

The occurrence of Adams-Oliver syndrome in a patient from the same geographic area as the first reported kindred led to follow-up of the original family, and to a survey of the literature. Of 81 cases in 32 families, there is an approximately equal distribution between sexes (38 males: 43 females). Vertical transmission in at least 8 families is consistent with autosomal dominant inheritance. The phenotype is variable with a range of mild-to-severe defects of the scalp and/or underlying bone. Despite large defects of the cranium, central nervous system abnormalities have not been found and intellectual development appears to be normal. Limb defects are usually limited to the digits, but may involve the long bones and are entirely absent in some obligate carriers of the gene. Cutis marmorata and tortuous, dilated scalp veins have been reported in association with the major head and limb defects, but also in isolation as a forme fruste phenotype. Thus, there is a broad range of variable expression ranging from cases with lethally hemorrhagic cranial defects and/or severe limb malformations, to patients without any apparent manifestations. Despite a phenotypic resemblance to isolated aplasia cutis congenita and to the syndrome of terminal transverse limb defects, Adams-Oliver syndrome appears to be causally distinct. While the underlying pathophysiologic mechanism remains unknown, it can be speculated that cranial vertex defects and malformations of the limbs represent field defects resulting from impaired circulation in "watershed" areas during a critical period of development.

Busulfan disposition in children

Children receive busulfan orally as part of myeloablative therapy before bone marrow transplantation for malignant and nonmalignant conditions. Children have been reported to have a low incidence of severe toxicity and significant rates of failure to achieve full engraftment. We evaluated the disposition of busulfan in children between 2 months and 3.6 years of age with lysosomal storage diseases, leukemia, and immunodeficiency disorders receiving oral doses of 1 or 2 mg/kg using a gas chromatographic assay. Peak concentrations were lower than those previously reported for adults, ranging from 1.4 to 5.2 mumol/L. The harmonic mean of the elimination half-life was 92 minutes, which is only slightly faster than that for adults (140 minutes). However, the area under the curve ranged from 400 to 1,000 (715 +/- 240) mumol.min/L, substantially lower than in adults receiving 1 mg/kg (range, 710 to 5,100 mumol.min/L; mean +/- SD, 2,180 +/- 1,200). The apparent volume of distribution (assuming complete bioavailability) ranged from 0.28 to 3.53 L/kg (1.42 +/- 0.86), which is more than twice that reported for adults (0.60 +/- 0.42). Busulfan clearance rate normalized to surface area is twice as high in children (200 +/- 100 mL/min/m2) as it is in adults (95 +/- 54 mL/min/m2). Alterations in bioavailability (absorption or first pass elimination) or in actual volume of distribution may account for these differences in drug disposition. The observed differences suggest the need for separate phase I dose escalation studies in children with accompanying pharmacokinetic assessment.

Diagnostic test for mucopolysaccharidosis. II. Rapid quantification of glycosaminoglycan in urine samples collected on a paper matrix

The direct 1,9-dimethylmethylene blue (DMB) method for quantifying sulfated glycosaminoglycan (GAG) in urine (Clin Chem 1989; 35:374-9) has been adapted to a convenient means for sample collection and transport as a test to identify individuals with mucopolysaccharidosis (MPS) storage diseases. Results correlated moderately well (r = 0.85) with those of a commonly used, but more laborious, quantitative method. In studying factors to maximize differentiation of pathological from normal values, we found that GAG excretion (expressed as milligrams GAG per gram creatinine) fits a logarithmic function with respect to age and varies markedly below age five years. This must be considered in developing normative values and forming diagnoses. Of 112 separate urine specimens obtained from 41 MPS patients representing the major MPS diseases, glycosaminoglycan excretion by all exceeded that for age-matched normal individuals. The convenience of this method allowed us to establish the first normative values for three-week-old infants (n = 435) found to have a mean glycosaminoglycan excretion of 179 (SD 86.3) mg of GAG per gram of creatinine. This method improves the diagnostic capability for those MPS diseases that have been particularly difficult to identify (Sanfilippo's syndrome and Morquio's syndrome), and may also provide a test for other disorders with previously unrecognized abnormal excretion of glycosaminoglycan (e.g., mucolipidosis and acromesomelic dysplasia). Most importantly, this MPS diagnostic test is unique in its suitability for mass screening of newborn infants.

Diagnostic test for mucopolysaccharidosis. II. Rapid quantification of glycosaminoglycan in urine samples collected on a paper matrix

The direct 1,9-dimethylmethylene blue (DMB) method for quantifying sulfated glycosaminoglycan (GAG) in urine (Clin Chem 1989; 35:374-9) has been adapted to a convenient means for sample collection and transport as a test to identify individuals with mucopolysaccharidosis (MPS) storage diseases. Results correlated moderately well (r = 0.85) with those of a commonly used, but more laborious, quantitative method. In studying factors to maximize differentiation of pathological from normal values, we found that GAG excretion (expressed as milligrams GAG per gram creatinine) fits a logarithmic function with respect to age and varies markedly below age five years. This must be considered in developing normative values and forming diagnoses. Of 112 separate urine specimens obtained from 41 MPS patients representing the major MPS diseases, glycosaminoglycan excretion by all exceeded that for age-matched normal individuals. The convenience of this method allowed us to establish the first normative values for three-week-old infants (n = 435) found to have a mean glycosaminoglycan excretion of 179 (SD 86.3) mg of GAG per gram of creatinine. This method improves the diagnostic capability for those MPS diseases that have been particularly difficult to identify (Sanfilippo's syndrome and Morquio's syndrome), and may also provide a test for other disorders with previously unrecognized abnormal excretion of glycosaminoglycan (e.g., mucolipidosis and acromesomelic dysplasia). Most importantly, this MPS diagnostic test is unique in its suitability for mass screening of newborn infants.

Ocular changes in the mucopolysaccharidoses after bone marrow transplantation. A preliminary report

Metabolic correction and physiologic response were evaluated after bone marrow transplantation in mucopolysaccharidosis. Eleven patients were prospectively evaluated to determine the effect of bone marrow transplantation on the progressive ocular manifestations of these disorders. Follow-up of 0.6 to 2.8 years after successful donor stem cell engraftment showed that some patients had slow clearing of the corneal clouding, reduction of intracytoplasmic inclusions in the conjunctiva, resolution of optic nerve edema, and stabilized or improved retinal function as determined by electroretinography. These preliminary results suggest that early bone marrow transplantation may alter some of the progressive ophthalmic characteristics of the mucopolysaccharidoses. Long-term follow-up is necessary to determine if these early alterations in the ocular features are predictive of a prolonged functional improvement in the visual status.

Diagnostic test for mucopolysaccharidosis. I. Direct method for quantifying excessive urinary glycosaminoglycan excretion

This direct method for quantifying excessive urinary glycosaminoglycan excretion exploits the specific binding of 1,9-dimethylmethylene blue (DMB). The procedure obviates cumbersome and labor-intensive procedures for separating glycosaminoglycans from other constituents of urine. Pediatric pharmaceutical formulations (except heparin), in concentrations expected in urine, do not interfere with spectrophotometry, nor does protein. Results can be expressed in terms of urinary creatinine; thus the test is applicable to very small urine specimens (0.1 mL), such as those obtainable from neonates. In a pilot study, results of the direct DMB test for 48 urine specimens agreed with the clinical diagnosis, and quantitative measurements correlated moderately (r = 0.76) with results of a commonly used procedure (carbazole-borate reactivity after precipitation with cetylpyridinium chloride). The present method was also used to assess metabolic correction in a patient with Hurler's syndrome after treatment by bone-marrow transplantation. This quantitative method surmounts the major technical problems of developing mass screening programs for infants, thus offering the potential for earlier diagnosis and treatment of mucopolysaccharidosis diseases.

Resolution of obstructive sleep apnea in Hurler syndrome after bone marrow transplantation

Hurler syndrome, a lethal inborn error of lysosomal metabolism, results from the systemic accumulation of glycosaminoglycan. The progressive deposition of glycosaminoglycan in tissues of the upper aerodigestive tract has been suspected as the cause of airway obstruction, and many children have required tracheostomy. In a 3-year-old patient with Hurler syndrome, polysomnography confirmed the clinical impression of obstructive sleep apnea. Biopsy of an enlarged tonsil demonstrated that more than half the tissue volume resulted from abnormal lysosomal inclusions in macrophages. Three months after transplantation, repeat testing demonstrated resolution of airway obstruction, and 6 months after transplantation, tonsil biopsy showed complete absence of lysosomal inclusions. Bone marrow transplantation produces effective metabolic correction for Hurler syndrome and may be life-saving for patients with obstructive apnea.

A nonpathologic allele (IW) for low alpha-L-iduronidase enzyme activity vis-a-vis prenatal diagnosis of Hurler syndrome

We identified a phenotypically normal obligate heterozygote for Hurler syndrome with exceedingly low levels of alpha-L-iduronidase enzyme activity. Subsequent investigation determined that low alpha-L-iduronidase activity was systemic, also characteristic of the subject's leukocytes and cultured skin fibroblasts. Residual alpha-L-iduronidase activity of cultured fibroblasts was found to have reduced catalytic activity (Vmax) against the 4-methylumbelliferone substrate, but normal substrate affinity (KM). Additional studies further characterized the residual enzyme activity in this woman who is an apparent compound heterozygote for Hurler syndrome, and for an allele with low alpha-L-iduronidase activity lacking pathologic manifestation. Such low activity "pseudodeficiency" alleles will complicate attempts at prenatal diagnosis of Hurler syndrome and related disorders in rare families.

Direct hyperbilirubinemia and hepatic fibrosis: a new presentation of Jeune syndrome (asphyxiating thoracic dystrophy)

Jeune syndrome (asphyxiating thoracic dystrophy) is an autosomal recessive skeletal dysplasia with multisystem involvement. The disorder is usually considered lethal, with death resulting from respiratory insufficiency during infancy, or from renal failure during childhood. Hepatic dysfunction, diagnosed on the basis of direct hyperbilirubinemia and hepatic fibrosis, led to early diagnosis of Jeune syndrome in a newborn infant. Review of the literature indicates that the specific pathologic lesion (biliary dysgenesis with portal fibrosis and bile duct proliferation) has been observed as an incidental finding at autopsy, but that clinically significant liver dysfunction has not been appreciated as an important manifestation in this disorder. The characteristic histopathologic abnormality has been present in every patient studied, and may advance during infancy; in contrast, clinical liver dysfunction resolves over the first few months of life. Whereas many patients with Jeune syndrome die early, several have survived into adolescence, suggesting that aggressive treatment is appropriate, especially for those with minimal respiratory and renal involvement. Longitudinal evaluation of liver function and pathology in these survivors is needed to define the long-term prognosis.

de la Chapelle dysplasia

Since the description by de la Chapelle and colleagues of two sibs with a unique skeletal dysplasia, two additional cases have occurred, one in the original Finnish family and one sporadic patient born to unrelated parents of Belgian descent. The original Finnish family has later had a fourth child, a normal daughter who was found to be unaffected upon radiographic examination in the 19th week of gestation. These additional findings are compatible with recessive inheritance. Physical features common to these four patients include cleft palate, small thorax, moderately severe micromelia with small hands, and equinovarus deformity. In each case, the ulnae and fibulae were reduced to an almost triangular osseous remnant. Other long bones were short and bowed. Neonatal death occurred in all cases and may be attributed to a consistent triad of respiratory tract malformations: laryngeal stenosis, tracheobronchomalacia, and pulmonary hypoplasia. Clinical and radiographic features are sufficiently unique to distinguish de la Chapelle dysplasia from other disorders in the spectrum of neonatal lethal osteochondrodysplasias. Lacunar halos were identified as a distinctive histopathologic feature also observed in achondrogenesis but not in several other skeletal dysplasias.

Persistent succinylacetone excretion after liver transplantation in a patient with hereditary tyrosinaemia type I

A liver transplant was performed on a 4-year-old female in liver failure caused by hereditary tyrosinaemia, with hepatocellular carcinoma following a negative evaluation for metastases. However, serum alpha-fetoprotein levels never returned to normal after the surgery. Urinary succinylacetone (SA) was detected in her urine prior to transplantation despite strict adherence to a low-tyrosine diet. Other patients with severe liver disease awaiting liver transplantation do not excrete SA in the urine. She continued to excrete SA during the postoperative period despite normal liver functions. Oral tyrosine loading resulted in significant elevation of SA excretion. Possible explanations for this observation and clinical and therapeutic relevance are discussed.

In vivo chloroquine-induced inhibition of insulin degradation in a diabetic patient with severe insulin resistance

We report on a 26-yr-old patient with an 11-yr history of insulin-dependent diabetes mellitus who exhibited insulin resistance with a requirement of up to 15,000 U of intravenous (i.v.) insulin/day. Attempts to diminish her insulin requirement by administration of sulfated insulin or Trasylol were unsuccessful, with the patient remaining resistant to subcutaneous (s.c.) and i.v. administration of pure pork insulin. Chloroquine phosphate therapy (500 mg twice a day) resulted in a decreased requirement for i.v. insulin (700 U/day as compared with the pretreatment requirement of 8400 U/day). Accelerated insulin degradation in s.c. fat tissue of the patient before treatment with chloroquine was demonstrated. This activity was decreased by 64% during chloroquine therapy. Inhibition of insulin degrading activity (IDA) during chloroquine therapy was associated with reductions in the leukocyte lysosomal enzymes alpha-galactosidase and hexosaminidase-A but not hexosaminidase-B and beta-glucuronidase. This study constitutes the first reported use of chloroquine for treatment of insulin resistance as a result of accelerated insulin degradation, and it provides evidence of the effectiveness of this agent in this rare condition.

Fibrochondrogenesis: lethal, autosomal recessive chondrodysplasia with distinctive cartilage histopathology

Fibrochondrogenesis is a rare, neonatally lethal rhizomelic chondrodysplasia distinguished from other forms of lethal dwarfism by broad long-bone metaphyses, pear-shaped vertebral bodies, and by microscopic changes of cartilage with unique interwoven fibrous septa and fibroblastic dysplasia of chondrocytes. We report the second and third well-documented cases of this apparently autosomal recessive disorder and discuss the differential diagnosis.