Michael J. Palmieri

The effect of dietary fruits and vegetables on urinary galactitol excretion in galactose-1-phosphate uridyltransferase deficiency

SummaryEven on a lactose-restricted diet, urinary galactitol excretion and erythrocyte galactose-1-phosphate levels are persistently elevated in patients with galactose-1-phosphate uridyltransferase deficiency. In order to determine the contribution of galactose in dietary fruits and vegetables to this phenomenon, (1) the content of galactose in a lactose-free diet was directly measured when a galactosaemic patients diet was specifically enriched in those fruits and vegetables which contain relatively large amounts of free galactose and (2) galactitol excretion was determined during ingestion of this diet for 3 weeks and while on a synthetic diet for 1 week that provided <8 mg galactose/day. For comparison the effect of a 3-week supplementation of 200 mg galactose/day was determined. The measured intake in total foodstuffs matched the theoretical content of galactose in the patients diet based on amounts in fruits and vegetables alone, thus supporting the concept that fruits and vegetables are primarily responsible for galactose intake in a lactose-free diet. All of the dietary manipulations, however, had relatively little effect on metabolite levels, suggesting that endogenous galactose production is primarily responsible for the elevated levels of galactose metabolites routinely detected in patients on lactose-restricted diets.

Urinary galactonate in patients with galactosemia: quantitation by nuclear magnetic resonance spectroscopy.

Although numerous reports have appeared showing high levels of galactitol in the urine of patients with galactose-1-phosphate uridylyltransferase deficiency, little attention has been paid to measurement of urinary galactonate. Herein we explored the use of 1H and 13C nuclear magnetic resonance, which required only the concentration of urine without derivatization, to detect and quantitate urinary galactonate. We report that transferase deficient infants, as well as adults on galactose restricted diets excrete significant amounts of galactonate, whereas none is detected in the urine of normal subjects. Galactose-toxic infants were found to excrete large amounts of galactonate, which decreased when the lactose-free diet was instituted. We also found that normal individuals subjected to an oral galactose load also excrete high levels of galactonate for at least 4 h after galactose ingestion. Our data provide evidence that the first reaction in the oxidative pathway of galactose metabolism described in rat liver in 1966 is activated in patients with a variety of galactose-1-phosphate uridylyltransferase gene mutations even while on a lactose-restricted diet. In both patients and normal individuals, flux through the alternate galactonate pathway appears to be related to the body galactose burden.

Galactose Breath Testing Distinguishes Variant and Severe Galactose-1-Phosphate Uridyltransferase Genotypes

A galactose breath test that quantitates [1-13C]galactose conversion to 13CO2 provides information on the whole body galactose oxidative capacity. As there is little information on the relationship between whole body oxidation and the genotype in patients with galactosemia, we measured the 13CO2 excretion for 2 h after administration of [1-13C]galactose in 37 patients (3–48 y old) with galactose-1-phosphate uridyltransferase (GALT) deficiency and 20 control subjects (3–37 y old). Eleven patients with the common Q188R/Q188R genotype and no detectable erythrocyte GALT activity eliminated <2% of a bolus of [1-13C]galactose as 13CO2 compared with 8.47 to 28.23% in controls. This defines a severe metabolic phenotype. Seven patients with one Q188R allele and a second mutant allele such as L195P, E308K, V151A, M142K, or Q344K and one patient with a K285N/unknown genotype also released <2% as 13CO2 in 2 h. The presence of N314D or S135L as the second mutant allele does not impair total body galactose oxidation, as individuals with the GALT genotype of Q188R/N314D, K285N/N314D, and Q188R/S135L had normal 2-h galactose breath tests. Subjects with S135L/S135L, N314D/N314D, S135L/ΔT2359 as well as other rarer genotypes such as R258C/Y209C, E203 K/IVSC-N314D, K285N/T138M, Q188R/D113N, S135L/F171S, R148W/N314D, and IVSC-N314D/N314D oxidized galactose comparable to controls. The dissociation of residual erythrocyte GALT activity and whole body galactose oxidative capacity is exemplified by blacks with a S135L/S135L genotype and absent erythrocyte GALT activity. An oral 2-h [1-13C]galactose breath test distinguishes severe and variant GALT genotypes and enables delineation of the extent of impaired galactose metabolism in an array of patients who possess diverse GALT mutations. It may prove to be useful in establishing whether a patient is capable of manifesting disease similar to patients with a Q188R/Q188R genotype.

The concentration of red blood cell UDPglucose and UDPgalactose determined by high-performance liquid chromatography.

We have developed a sensitive method that employs high-performance liquid chromatography to separate and quantitate uridine diphosphogalactose (UDPGal) and uridine diphosphoglucose (UDPGlu) in human red blood cells. The trichloracetic acid extracts of red blood cells were chromatographed using a Dionex CarboPac anion-exchange resin and a 20-40% potassium phosphate buffer, pH 4.5, in a gradient-elution program. UDPGal and UDPGlu were detected spectrophotometrically at 254 nm. Recoveries of UDPGal and UDPGlu ranged from 96 to 106%. Under these conditions, there was exceptionally good reproducibility in stored specimens, and the method was sensitive in the low picamole range. The mean values and standard deviations in adults were 2.9 +/- 0.4 and 7.8 +/- 0.8 mumol/100 g Hgb for UDPGal and UDPGlu, respectively. The values in children were 4.5 +/- 1.2 and 10.2 +/- 1.7 mumol/100 g Hgb for UDPGal and UDPGlu, respectively. Values determined by the HPLC method are in excellent agreement with those obtained by enzyme analysis.

Neonatal hypoglycaemia in severe succinyl-CoA:3-oxoacid CoA-transferase deficiency

Succinyl-CoA:3-oxoacid CoA-transferase (SCOT) deficiency is an inborn error of ketone body utilization, characterized by intermittent ketoacidotic crises and persistent ketosis. The diagnosis was suspected in a patient who presented with hypoglycaemia, ketoacidosis and coma at 4 days of age. The hypoglycaemic tendency was only observed during the first month of life. A novel macromolecular labelling assay in cultured skin fibroblasts using D-3-hydroxy[3-14C]butyrate supported the diagnosis. Subsequently, 9% residual SCOT activity and undetectable cross-reactive protein were noted in fibroblasts and the patient was found to be homozygous for the G324E SCOT gene mutation. By 7 years of age, recurrent episodes of ketoacidosis superimposed on persistent hyperketonaemia had resulted in over 25 hospitalizations requiring intravenous fluid, glucose and sodium bicarbonate therapy. He has had normal growth but developmental delay and attention deficit–hyperactivity disorder. A continuous intravenous glucose infusion at 38 μmol (6.8 mg)/kg per min reduced plasma total ketone levels from greater than 1.5 mmol/L to less than 0.5 mmol/L after 48 h. This indicates that patients with SCOT deficiency do not always manifest ketosis with administration of a sufficient amount of carbohydrates, but that even under such conditions hyperketonaemia is difficult to eliminate completely. The presence of hypoglycaemia does not exclude the diagnosis of SCOT deficiency in infancy.

Urine and plasma galactitol in patients with galactose-1-phosphate uridyltransferase deficiency galactosemia

Urinary excretion of galactitol was determined in 95 normals (N/N), 67 galactosemic (G/G), and 39 compound heterozygotes for the Duarte and galactosemia genotype (D/G). Galactitol excretion is age-dependent in both normal individuals and patients with classic galactosemia on lactose-restricted diets. In galactosemic patients who are homozygous for the Q188R mutation, urinary galactitol levels were fivefold to 10-fold higher than those of normal subjects of comparable age. All but a few patients with classic galactosemia with the Q188R mutation and another mutant G allele had urinary excretion comparable to the Q188R homozygous patients. African-American galactosemic patients with the S135L mutation of the galactose-1-phosphate uridyltransferase (GALT) gene also excreted abnormal quantities of galactitol. Most subjects with a Duarte allele and a G allele excrete normal amounts of the sugar alcohol. There is a correlation between galactitol excretion and red blood cell (RBC) galactose-1-phosphate (gal-1-P). Plasma galactitol was also elevated in galactosemic patients (3.4 to 23.2 micromol/L; undetectable in normal individuals). In contrast to the decrease in urinary galactitol with age, plasma levels remain in a narrow concentration range with no significant difference with age. Urine and plasma galactitol distinguish galactosemic patients from normals. In addition, urinary galactitol excretion may be an important parameter for the assessment of steady-state galactose metabolism in galactosemia.

Krabbe's disease presenting as a peripheral neuropathy

A 13‐year‐old female initially presented with scoliosis and pes cavus. Initial examination revealed distal lower extremity weakness and sensory loss, as well as greater auricular nerve hypertrophy. There was a Babinski sign on the right. Nerve conduction velocities were consistent with a demyelinating neuropathy. Four years after initial presentation she developed lower extremity spasticity and bilateral Babinski signs. Magnetic resonance imaging of the brain showed diffuse white matter disease. Laboratory evaluation revealed an abnormally low galactocerebroside beta‐galactosidase level. Nerve biopsy demonstrated inclusions consisting of globoid clusters and evidence of demyelination. DNA analysis was used to identify mutations consistent with Krabbes disease. Patients presenting with an atypical peripheral neuropathy should be evaluated for Krabbes disease.

Bone marrow transplantation for Niemann-Pick Type IA disease

SummaryBone marrow transplantation has been undertaken with encouraging results as therapy for a wide variety of lysosomal storage diseases. We report a case of Niemann-Pick disease Type IA in which, despite the presence of only mild hypotonia with depressed reflexes, the clinical course of the disease appeared to be only slightly modified by this procedure, which was performed at the earliest practical opportunity. The patient was diagnosed early when asymptomatic, because of a family history of an affected sibling who died at 14 months. He received a bone marrow transplant from an HLA-identical, MLC non-reactive sibling donor, whose leukocyte sphingomyelinase activity was in the homozygote normal range. There was adequate engraftment as evidenced by persistently normal leukocyte sphingomyelinase activities, and there was no evidence of graft-versus-host disease. Visceral storage and neurological impairment were less rapidly progressive than in his untreated sibling but he eventually died at 30 months. Autopsy confirmed that this was essentially due to the effects of the underlying Niemann-Pick disease. We conclude that despite some success in other neurovisceral lysosomal storage disorders, bone marrow transplantation is not likely to be an adequate treatment for Niemann-Pick disease Type IA.

Red blood cell uridine sugar nucleotide levels in patients with classic galactosemia and other metabolic disorders

While dietary galactose restriction eliminates the life-threatening complications of classic galactosemia, central nervous system and ovarian disease are still evident in these patients, despite milk restriction. Because of the possibility that reduced tissue levels of uridine diphosphate galactose (UDPgalactose), the product of the deficient enzyme, galactose-1-phosphate uridyltransferase, are the cause of these unexplained complications, we have measured the concentration of red blood cell (RBC) uridine sugar nucleotides in these patients, comparing their values not only with those of normal subjects, but also with those of children who have other metabolic disorders. RBC UDPgalactose and uridine diphosphate glucose (UDPglucose) levels were measured by high-performance liquid chromatography (HPLC) in 35 control subjects, 24 galactosemic patients, and 19 patients with inborn errors of amino acid, organic acid, or ammonia metabolism. The last group of patients served as dietary controls, as they were all on special low-protein diets that restricted milk intake. The mean levels of UDPgalactose in galactosemic children and adults were 38% and 54% lower, respectively, than the levels in normal children and adults. While only six of 19 galactosemic children had levels below the 95% confidence limit for normals, four of five galactosemic adults had levels of UDPgalactose in the low range. The mean UDPgalactose level in children with other metabolic diseases who were on a low-milk diet was also reduced by 38%, with a mean not significantly different from galactosemics. Compared with normal adults, the level of UDPglucose in galactosemic adults was also reduced by 29%, with three of five affected adults having UDPglucose values below the 95% confidence limit.(ABSTRACT TRUNCATED AT 250 WORDS)

Thyroxine-Evoked Precocious Decrease of Acid Hydrolases in the Ileum of Suckling Rats

Summary Daily administration of thyrox-ine (200 μg/100g/BW 24 hr s.c.) to intact suckling rats (from 7 to 13 days of postnatal age) and to suckling adrenal-ectomized rats (from 14 to 18 days) caused a precocious decrease of acid-β-galacto-sidase, β-glucuronidase and N-acetyl-β-glucosaminidase in the ileum of the small intestine. Thyroxine treatment evoked also a precocious increase of jejunal sucrase and maltase activities.