Obligate Heterozygous Parents Research Articles

Ichthyosis fetalis in Polled Hereford and Shorthorn calves

Inherited forms of ichthyosis, or generalized scaling of the skin, have been reported in many animal species, including cattle, and are characterized by an autosomal recessive mode of inheritance. We investigated 2 calves affected with ichthyosis fetalis, a Polled Hereford and a Shorthorn. Both cases had hard white plaques on the skin consistent with excessive keratinization. This was confirmed by histopathology, which showed severe diffuse epidermal and follicular orthokeratotic hyperkeratosis. The known mutation (H1935R) in gene ABCA12, responsible for ichthyosis fetalis in Chianina cattle, was shown to be absent in both affected calves and their obligate heterozygous parents. These molecular findings indicate that allelic heterogeneity exists for this condition in cattle.

Nonradioactive Vitamin B12 Absorption Test Evaluated in Controls and in Patients with Inherited Malabsorption of Vitamin B12

Current tests for evaluation of vitamin B(12) absorption are problematic because they involve the use of radioactively labeled vitamin B(12). We describe a vitamin B(12) absorption test that circumvents this problem. We measured cobalamin or transcobalamin saturated with cobalamin (holo-TC) 24 h after three 9-microg doses of vitamin B(12) given orally at 6-h intervals. We studied 17 patients with inherited malabsorption of vitamin B(12) attributable to Imerslund-Grasbeck syndrome (n = 13) or intrinsic factor deficiency (n = 4), their obligate heterozygous biological parents (n = 19), and healthy controls (n = 44). In the patients, the median (range) change of holo-TC after the B(12) load was not significant [1 (-42 to 5) pmol/L], nor was the change of cobalamin [-3 (-32 to 22) pmol/L], consistent with a lack of measurable active or passive absorption. In controls, however, the median (range) increases of holo-TC and cobalamin were 26 (-6 to 63) pmol/L and 41 (-37 to 109) pmol/L, respectively. Similarly, the parents showed increases of 23 (-2 to 47) pmol/L and 27 (-15 to 94) pmol/L. The mean areas under the ROC curves (95% confidence intervals) were 0.97 (0.93-1.0) for holo-TC and 0.87 (0.79-0.94) for cobalamin, distinguishing patients from controls. At a cutoff of 6 pmol/L for holo-TC, the diagnostic sensitivity (95% confidence interval) was 100 (81-100)%, and the diagnostic specificity was 92 (82-97)%. Measurement of holo-TC after administration of vitamin B(12) is a promising approach for evaluating vitamin B(12) absorption.

Renal excretion of galactose and galactitol in patients with classical galactosaemia, obligate heterozygous parents and healthy subjects.

The age dependence of galactose and galactitol excretion was assessed in overnight-fasted galactose-1-phosphate uridyltransferase-deficient patients under dietary treatment (ages 4-34 years; n = 51), obligate heterozygous parents (ages 25-71 years; n = 49) and healthy subjects (ages 3-58 years; n = 215). Urine concentrations were analysed by stable-isotope dilution gas chromatography mass spectrometry. There was considerable interindividual variability. The intraindividual variation, however, was not age-dependent and was rather low. Excretion estimates were calculated from the creatinine-related concentrations using weight-, age- and sex-related creatinine excretion rates. Experimental evidence is presented underscoring the problems inherent in random sampling and substantiating the primary endogenous origin of galactose and galactitol in postabsorptive urine samples. Age-dependent excretion estimates were best fitted to a simple growth-related model assuming an exponential decrease with age until adulthood. According to the model, mean postabsorptive galactose and galactitol excretion in healthy subjects was similar and decreased exponentially from about 1.2 micromol/kg body weight per day in infants to about 0.2 micromol/kg body weight per day in adults. Excretion in heterozygotes was normal. In galactosaemic patients, galactose excretion was in the normal range. Galactitol excretion, however, was enhanced over 50-fold and decreased from a mean estimate of about 64 micromol/kg body weight per day in infants to about 23 micromol/kg body weight per day in adults. The results are discussed with respect to the significance of galactose and galactitol excretion for whole-body galactose removal and with respect to the applicability of urinary galactitol analysis for metabolic monitoring in galactosaemia.

SLC7A9 mutations in all three cystinuria subtypes

Cystinuria is an inherited disorder of cystine and dibasic amino acid transport in kidney. Subtypes are defined by the urinary cystine excretion patterns of the obligate heterozygous parents: Type I/N (fully recessive or silent); Type II/N (high excretor); Type III/N (moderate excretor). The first gene implicated in cystinuria (SLC3A1) is associated with the Type I urinary phenotype. A second cystinuria gene (SLC7A9) was recently isolated, and mutations of this gene were associated with dominant (non-Type I) cystinuria alleles. Here we report genotype-phenotype studies of SLC7A9 mutations in a cohort of well-characterized cystinuria probands and their family members. Individual exons of the SLC7A9 gene were screened by single strand conformation polymorphism (SSCP) analysis and sequencing of abnormally migrating fragments. Seven mutations were identified. A single bp insertion (799insA) was present in four patients: on Type III alleles in two patients and on Type II alleles in two patients. These results suggest that Type II and Type III may be caused by the same mutation and, therefore, other factors must influence urinary cystine excretion. A 4bp deletion in intron 12 (IVS12+4delAGTA) and a missense mutation (1245G-->A, A354T) were identified on Type III alleles. A nonsense codon (1491G-->T, E436X) and a possible splicing mutation (IVS9-17G-->A) were seen in a Type I/III patient, but the mutations could not be assigned to particular alleles. Of additional interest were two missense mutations (316T-->C, I44T and 967C-->T, P261L) linked to Type I alleles. Our results provide evidence that some SLC7A9 mutations may be associated with fully recessive (Type I) forms of cystinuria. We also demonstrate SLC7A9 mutations in dominant Types II and III cystinuria. The finding of SLC7A9 mutations in all three subtypes underscores the complex interactions between specific cystinuria genes and other factors influencing cystine excretion. A simpler phenotypic classification scheme (recessive and dominant) for cystinuria is warranted.

Analysis of Concentration and 13C Enrichment of d-Galactose in Human Plasma

A stable-isotope dilution method for the sensitive determination of D-galactose in human plasma was established. D-[(13)C]Galactose was added to plasma, and the concentration was measured after D-glucose was removed from the plasma by treatment with D-glucose oxidase and the sample was purified by ion-exchange chromatography. For gas chromatographic-mass spectrometric analysis, aldononitrile pentaacetate derivatives were prepared. Monitoring of the [MH-60](+) ion intensities at m/z 328, 329, and 334 in the positive chemical ionization mode allowed the assessment of 1-(12)C-, 1-(13)C-, and U-(13)C(6)-labeled D-galactose, respectively. The D-galactose concentration was quantified on the basis of the (13)C-labeled internal standard. The method was linear (range examined, 0.1-5 micromol/L) and of good repeatability in the low and high concentration ranges (within- and between-run CVs <15%). The limit of quantification for plasma D-galactose was <0.02 micromol/L. Measurements in plasma of postabsorptive subjects yielded D-galactose concentrations (mean +/- SD) of 0.12 +/- 0.03 (n = 16), 0.11 +/- 0.04 (n = 15), 1.44 +/- 0.54 (n = 10), and 0.17 +/- 0.07 (n = 5) micromol/L in healthy adults, diabetic patients, patients with classical galactosemia, and obligate heterozygous parents thereof, respectively. These data were considerably lower (3- to 18-fold) than the values of a conventional enzymatic assay. The procedure was also applied successfully in a stable-isotope turnover study to evaluate endogenous D-galactose formation. The present findings establish that detection of D-galactose from endogenous sources is feasible in human plasma and show that erroneously high results may be obtained by enzymatic methods.

Elevated plasma homocysteine elicits an increase in antioxidant enzyme activity

Elevated plasma homocysteine is considered to be a risk factor for cardiovascular disease. The mechanisms for this effect are not fully understood but there is some evidence for a role for reactive oxygen species (ROS). This study was conducted to explore the effects of elevated plasma total homocysteine (tHcy) concentration on activity of antioxidant enzymes in the circulation. The study group consisted of 10 patients with inherited defects of homocysteine metabolism, from whom 41 blood samples were collected over a period of six months. Blood samples were also collected from 13 of their obligate heterozygous parents. For data analysis samples were classified as those with plasma tHcy < 20 μM or ≥ 20 μM. The activity of erythrocyte superoxide dismutase (SOD) and plasma glutathione peroxidase (GSHPx) was elevated in samples with plasma tHcy > 20 μM. Moreover, a significant correlation was demonstrated between plasma GSHPx activity, plasma glutathione peroxidase protein and plasma tHcy. In vitro studies confirmed that this observation was not due to a simple chemical enhancement of enzyme activity. Homocysteine protected GSHPx from loss of activity following incubation at 37°C. A similar effect was seen with another thiol-containing amino acid, cysteine. Results suggest that elevated plasma tHcy represents an oxidative stress, resulting in an adaptive increase in activity of antioxidant enzymes in the circulation.

Significance of l-Alloisoleucine in Plasma for Diagnosis of Maple Syrup Urine Disease

The significance of plasma L-alloisoleucine, which is derived from L-isoleucine in vivo, for diagnosis of maple syrup urine disease (MSUD) was examined. Branched-chain L-amino acids were measured by automatic amino acid analysis. Alloisoleucine reference values in plasma were established in healthy adults [1.9 +/- 0.6 micromol/L (mean +/- SD); n = 35], children 3-11 years (1.6 +/- 0.4 micromol/L; n = 17), and infants <3 years (1.3 +/- 0.5 micromol/L; n = 37). The effect of dietary isoleucine was assessed in oral loading tests. In controls receiving 38 micromol (n = 6; low dose) and 1527 micromol (n = 3; high dose) of L-isoleucine per kilogram of body weight, peak increases of plasma isoleucine were 78 +/- 24 and 1763 +/- 133 micromol/L, respectively; the peak increase of alloisoleucine, however, was negligible for low-dose (<0.3 micromol/L) and minor for high-dose (5. 5 +/- 2.1 micromol/L) load. In patients with diabetes mellitus, ketotic hypoglycemia, phenylketonuria, and obligate heterozygous parents of MSUD patients, alloisoleucine was not significantly different from healthy subjects. Therefore, a plasma concentration of 5 micromol/L was used as a cutoff value. In patients with classical MSUD (n = 7), alloisoleucine was beyond the cutoff value in 2451 of 2453 unselected samples. In patients with variant MSUD (n = 9), alloisoleucine was >5 micromol/L in all samples taken for establishment of diagnosis and in 94% of the samples taken for treatment control (n = 624). With the other branched-chain amino acids, the frequency of diagnostically significant increases was <45%. The present findings indicate that plasma L-alloisoleucine above the cutoff value of 5 micromol/L is the most specific and most sensitive diagnostic marker for all forms of MSUD.

Cytogenetic and molecular studies of siblings with ataxia telangiectasia followed for 7 years

We present cytogenetic, immunologic, and molecular data obtained over 7 years from a family with ataxia telangiectasia (AT) including 2 affected children and their unaffected sibling, and their obligate heterozygous parents. In a period of 3 years, the T lymphocytes from both AT patients showed clonal rearrangements of chromosomes 7 and 14 at specific bands (7p13, 7q35, 14q12, and 14q32), where loci for the Ig and TCR genes are located. A molecular study was carried out on peripheral blood and bone marrow samples from both patients using Southern blot and PCR for Ig and TCR genes. A monoclonal population for TCRγ was observed in one of the two affected children, but only in peripheral blood.

Cathepsin A Deficiency in Galactosialidosis: Studies of Patients and Carriers in 16 Families

Deficiency of lysosomal protective protein/cathepsin A in humans is the primary cause of galactosialidosis, a lysosomal storage disease characterized by combined deficiency of beta-galactosidase and neuraminidase. We have investigated 20 galactosialidosis patients and nine of their obligate heterozygous parents. A group of 12 patients with the early infantile type of the disease exhibited practically complete absence of cathepsin A activity, whereas eight patients with either the late infantile or the juvenile/adult type had 2-5% residual activity. Highest levels (5%) were present in two patients with milder clinical manifestations and later onset of the disease. In most fibroblast strains, beta-galactosidase activity was 10-15% of normal levels, whereas neuraminidase was reduced to less than 4%. Interestingly, a substantial residual activity (10%) of the latter enzyme was detected in the patient with the mildest phenotype and the highest cathepsin A activity. Heterozygous values for cathepsin A were reduced on average to half of normal levels. However, in two cell strains, the activity was far below control range, and in these cases, neuraminidase activity was severely depressed. Finally, we showed that cathepsin A had considerable activity in chorionic villi and amniocytes, but was deficient in amniocytes from a pregnancy with an affected fetus, indicating the relevance of cathepsin A assay for prenatal diagnosis of galactosialidosis.

Molecular genetics of cystinuria in French Canadians: Identification of four novel mutations in Type I patients

Cystinuria, a hereditary disorder of cystine and dibasic amino acid reabsorption, has been classified into three subtypes on the basis of urinary excretion in obligate heterozygous parents. Thirteen cystinuric patients, identified primarily through the Quebec newborn urinary screening program, were investigated by phenotypic classification and by mutational analysis of the D2H (rBAT) gene. Mutations were identified on 7 of 25 alleles; all of these 7 mutant alleles were associated with Type I cystinuria. Four of the mutations (a large deletion, a 5'splice site mutation, a 2 bp deletion, and a nonsense mutation) have not been previously reported. These findings suggest that abnormalities in the D2H gene may account for only one subtype (Type I) of cystinuria, and that this subtype can be caused by a wide variety of population-specific mutations.

Defective conversion of 7-dehydrocholesterol to cholesterol in cultured skin fibroblasts from Smith-Lemli-Opitz syndrome homozygotes

The Smith-Lemli-Opitz syndrome is a common birth defect syndrome characterized biochemically by low plasma cholesterol levels and high concentrations of the cholesterol precursor 7-dehydrocholesterol. The present study was undertaken to prove that the enzyme defect is at the step in which 7-dehydrocholesterol is converted into cholesterol and to establish a new biochemical method for the diagnosis of this disease. We assayed the latter part of the cholesterol biosynthetic pathway by incubating [3H]lathosterol (the immediate precursor of 7-dehydrocholesterol) with cultured skin fibroblasts from 15 homozygous patients, 14 obligate heterozygous parents, and 8 controls, and measuring its conversion to 7-dehydrocholesterol and cholesterol. The formation of cholesterol from lathosterol in parents was not significantly different from that in controls. In contrast, cells from patients made very little cholesterol (P < 0.0001, patients vs. parents or vs. controls) but readily converted lathosterol to 7-dehydrocholesterol. The defect was especially profound in a subgroup of 8 of the most severely clinically affected patients, as virtually no label was detected in the cholesterol fraction. These results provide compelling evidence that 1) this disease is caused by a primary defect in 7-dehydrocholesterol delta 7-reductase, an essential enzyme in the biosynthesis of cholesterol; 2) the most clinically severe form of the syndrome may be associated with the most inhibited enzyme; and 3) the enzyme lathosterol 5-desaturase that converts lathosterol to 7-dehydrocholesterol is fully intact. The present method using fibroblast and amniocyte cultures establishes it as a useful procedure for the biochemical diagnosis of this syndrome.

The LPL gene in individuals with familial combined hyperlipidemia and decreased LPL activity.

Familial combined hyperlipidemia (FCHL) is an oligogenic disorder, with family members having elevated apolipoprotein B-100 levels and either elevated plasma cholesterol or triglyceride levels or both. Obligate heterozygous parents of children with lipoprotein lipase (LPL) deficiency express a mild FCHL phenotype. Of patients with FCHL, 36% have diminished postheparin LPL activity and mass values that are comparable with those of obligate heterozygotes for LPL deficiency. It is hypothesized that heterozygosity for mutations in the LPL gene could contribute to FCHL in this subset of patients. Single-strand conformation polymorphism (SSCP) analysis, direct DNA sequencing, and Southern blot analysis were used to examine exons 1 through 9 and exon-intron junctions of the LPL gene in 20 patients with FCHL and low LPL activity and mass. One subject had a substitution (GAC-->AAC) in exon 2, changing Asp9 to Asn. Two subjects had a previously undescribed "silent" substitution (GTG-->GTA) in exon 3 at Val108. Three patients had a premature termination at codon 447 in exon 9 resulting in truncation of the mature protein by two amino acids. In addition to SSCP analysis, exons 4, 5, and 6, where almost all mutations in LPL-deficient patients have been found, were sequenced and no additional mutations were found. Southern blot analysis of the LPL gene revealed one subject with heterozygous loss of an EcoRI site but without an abnormality in Stu I restriction fragments; this mutation is therefore unlikely to be functionally significant. The substitutions identified at codons 9 and 447 have previously been found not to affect lipolytic activity when expressed in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)

Combined 17-Hydroxylase and 17,20-Desmolase Deficiencies: Evidence for Synthesis of a Defective Cytochrome P450c17*

We studied in vivo and in vitro steroidogenesis in six phenotypic female children with 17-hydroxylase deficiency. The diagnosis was suspected as a likely cause of familial low renin hypertension and was confirmed by findings of reduced basal and ACTH-stimulated serum and urinary levels of cortisol and other 17-hydroxysteroids, together with hypergonadotropic hypogonadism in both 46,XY and 46,XX patients, and abnormally increased secretion of 17-desoxysteroids, such as progesterone, 11-deoxycorticosterone, and corticosterone. ACTH stimulation testing demonstrated a lesser degree of 17-hydroxylase deficiency in the obligate heterozygous parents; one father had increased basal serum 17-hydroxyprogesterone values, unresponsive to ACTH, suggesting partial Leydig cell 17,20-desmolase deficiency. In vitro kinetic analysis of testicular microsomal enzymes in the affected 46,XY male pseudohermaphrodites confirmed that both 17-hydroxylase and 17,20-desmolase activities were less than 2% of those in age-matched normal subjects. However, in spite of this virtual absence of both enzymatic activities of cytochrome P450c17, Northern blot analysis demonstrated abundant amounts of RNA in these tests that hybridized to a cDNA specific for this P450 enzyme. Moreover, immunoblot analysis of sodium dodecyl sulfate-polyacrylamide gel electrophoresis-resolved testicular microsomes showed an apparently normal content of an immunoreactive protein with a mol wt similar to that of authentic P450c17. These results suggest that these patients have a point mutation in the gene for P450c17; the mutant gene is transcribed, but gives rise to a protein defective in normal 17-hydroxylase and 17,20-desmolase activities.

Homozygous familial hypercholesterolemic patients in China

Five homozygous patients with familial hypercholesterolemia (FH) are described. Their serum cholesterol levels were between 603 and 907 mg/dl, with an average of 714 mg/dl. The mean value of serum cholesterol levels of the obligate heterozygous parents was 270 mg/dl. In the patient group, 87% of the serum cholesterol was distributed in low density lipoprotein (LDL) and the mean LDL cholesterol level was about 8.4 times that in a control group. Phospholipids in HDL in the patient group were significantly lower than in the controls. Lipid assays of xanthoma tissues revealed that the major lipid was cholesterol and its esters. LDL receptor activity in fibroblasts from the homozygotes was markedly decreased. Two patients yielded less than 2% of normal receptor activity and were classified as receptor-negative. The other 3 revealed receptor activities greater than 2% but less than 25% of normal receptor activity and were classified as receptor-defective.

Chromosomal instability in ataxia telangiectasia

We have examined various aspects of lymphocyte chromosomal instability in three families comprised of five individuals affected with ataxiatelangiectasia (AT), their obligate heterozygous parents, and their unaffected sibs. We found that neither baseline sister chromatid exchanges (SCEs) nor mitomycin-C-induced increments in SCEs showed any significant differences among family members or between AT heterozygotes or homozygotes. Chromosome breakage in first-division metaphases was found to be moderately elevated in three of the five AT homozygotes (range 5–12%); breakage in the six AT obligate heterozygotes was within normal limits (0–4%). Analysis of Giemsa-banded metaphases indicated the presence of a clone bearing a paracentric inversion of chromosome #14 in addition to other chromosome #14 abnormalities in one AT homozygote. The same inversion was also found in this individual's affected sister and his obligate heterozygous father. A discussion regarding the relationship of the specificity of breakage and reunion of bands q12 and q32 on chromosome #14 and the high incidence of malignancy in AT is included.

Studies of the C-21 and C-19 steroids and HLA genotyping in siblings and parents of patients with congenital adrenal hyperplasia due to 21-hydroxylase deficiency.

In 24 families of patients with congenital adrenal hyperplasia (21-hydroxylase deficiency), HLA genotyping and a 360-min ACTH stimulation test were performed in 34 siblings, 37 parents, and 11 other family members. 17-desoxy-, 17-hydroxy-, and C-19 steroids were determined before and after stimulation with ACTH in order to test the adrenocortical function in family members with 21-hydroxylase deficiency. The response of the family members predicted to be heterozygous and those predicted to be genetically unaffected by HLA genotyping were compared to the general population. The study demonstrates that only the ACTH-stimulated 17- hydroxyprogesterone level may be useful in detecting heterozygosity. All other stimulated hormones (Δ5-17-hydroxypregnenolone, 11-desoxycortisol and cortisol in the glucocorticoid pathway and progesterone, desoxycorticosterone, corticosteront’, and aldosterone in the mineralocorticoid pathway, and Δ4-androstenedione, dehydroepiandrosterone, and testosterone in the androgen pathway), whether analyzed alone or in combination, did not discriminate between the general and the heterozygous populations. In summary, in siblings predicted to be heterozygous, by HLA genotyping and obligate heterozygous parents, a mild 21-hydroxylase deficiency was expressed in the 17-hydroxy pathway but was not evident in the 17-desoxy pathway or C-19 androgens after ACTH stimulation.

Sanfilippo B disease: Serum assays for detection of homozygous and heterozygous individuals in three families

Three assays for the determination of N-acetyl-α-D-glucosaminidase activity in the serum are described. In three families with patients suffering from Sanfilippo B disease, the affected individuals had a residual enzyme activity in the range of 2 to 16 per cent that of normal control subjects. Their obligate heterozygous parents had an activity diminished to 26 to 35 per cent. Nine other members of these families had enzyme activities lowered to the same extent and were therefore considered to be heterozygous carriers of the Sanfilippo B gene. Three assays for the determination of N-acetyl-α-D-glucosaminidase activity in the serum are described. In three families with patients suffering from Sanfilippo B disease, the affected individuals had a residual enzyme activity in the range of 2 to 16 per cent that of normal control subjects. Their obligate heterozygous parents had an activity diminished to 26 to 35 per cent. Nine other members of these families had enzyme activities lowered to the same extent and were therefore considered to be heterozygous carriers of the Sanfilippo B gene.