Mouse Lactate Dchydrogenase (LDH) C4 (Testis) Is Immunochemically Cross-Reactive with LDH A4 (Muscle) and LDH B4 (Heart)

It has been reported that lactale dehydrogenase (LDH) purified from testes (LDH C) of homotherms is not immunochemically cross-reactive with somatic forms of LDH purified from heart (LDH B) or muscle (LDH A). On the basis of this premise, LDH C has been considered for use as a contraceptive vaccine. Data presented here indicate that mouse anlisera to either mouse or rat LDH C are cross-reactive with LDH A and B purified from muscle and heart tissues of mice. However, rabbit antisera to mouse LDH C are not cross-reactive with either mouse LDH A or B. Thus, the degree of cross-reactivily is dependent on the species from which the immunogen LDH is purified, the antisera are derived, and the LDH used in the assay is purified. The determination that LDH A, B, and C are immunochemically cross-reactive is of importance in evaluating LDH C as an immunogen in an immunologic approach to contraception.     

Identification of human phosphoglucomutase 3 (PGM3) as N-acetylglucosamine-phosphate mutase (AGM1)

We performed phenotyping of human phosphoglucomutase 3 (PGM₃) and screening for mutations in the human N‐acetylglucosamine‐phosphate mutase gene (AGM₁) to identify PGM₃ as AGM₁. By sequencing the coding region of AGM₁, two alleles containing a G or A base at nucleotide 1396, that can respectively encode aspartic acid or asparagine at codon 466, were identified. Cell extracts of COS7 cells after transfection with the pcDNA 3·1(+) plasmid containing an AGM₁ allele with 1396G or 1396A showed similar electrophoretic patterns to the PGM₃ 1 or PGM₃ 2 protein, respectively, with the isozyme detection method used for PGM₃ phenotyping. The genotypes determined by the two alleles of AGM₁ coincided exactly with the PGM₃ phenotypes in 20 individuals. We also investigated the allele frequency of the AGM₁ nucleotide polymorphism in a Japanese population by DNA sequencing and found that the frequencies of alleles 1396G and 1396A were similar to previously reported PGM₃*1 and PGM₃*2 frequencies. Overall, the facts that the AGM₁ gene product shows PGM activity, AGM₁ is polymorphic, the electrophoretic mobility is similar between AGM₁ allele‐specific products and PGM₃ 1 and 2 proteins, PGM₃ phenotypes and AGM₁ genotypes completely coincide in 20 individuals, and AGM₁ allele frequencies are similar to those of PGM₃*1 and PGM₃*2 in Japanese populations, suggest that PGM₃ is identical to AGM₁.     

A comparison of the biochemical properties of the human diaphorase (DIA3) isozymes determined by the common alleles DIA13, DIA23 and DIA33

(1) Various buffer systems for the starch gel electrophoresis of human diaphorase isozymes have been explored. Electrophoresis in a Tris/Borate system at pH 8.6 which includes 70 micron NADH in the gel and cathodal electrode buffers, provides good resolution of the six DIA3 phenotypes previously resolved by isoelectric focusing. (2) The variant genes DIA13, DIA23 and DIA33 occur with frequencies of about 0.76, 0.23 and 0.01 respectively in the English population. (3) The isozymes determined by the least common gene, DIA33, are markedly different from the isozymes determined by DIA13 and DIA23 in their relatively low heat stability, high affinity for Blue Sepharose and slow anodal electrophoretic mobility in buffer systems containing borate. The DIA3 1 and DIA3 2 isozymes are similar to one another in these characteristics.     

Kinetics of Thyroxine (T4) and Triiodothyronine (T3) Transport in the Isolated Rat Heart

The dynamics and kinetics of thyroid hormone transport in the isolated rat heart were examined using the modified unidirectional paired tracer dilution method. The uptake of (125)I-thyroxine ((125)I-T(4)) and (125)I-triiodothyronine ((125)I-T(3)) from the extracellular space into heart cells was measured relative to the extracellular space marker (3)H-mannitol. The thyroid hormone maximal uptake was 54.4 % for (125)I-T(4) and 52.15 % for (125)I-T(3). The thyroid hormone net uptake was 25.69 % for (125)I-T(4) and 25.49 % for (125)I-T(3). Backflux from the intracellular space was 53.17 % for (125)I-T(4) and 61.59 % for (125)I-T(3). In the presence of unlabelled thyroid hormones, (125)I-T(4) and (125)I-T(3) maximal uptakes were reduced from 10.1 to 59.74 % and from 34.6 to 65.3 %, respectively, depending on the concentration of the unlabelled hormone, suggesting a saturable mechanism of the thyroid hormone uptake by the heart cells, with K(m(T4))= 105.46 microM and the maximal rate of (125)I-thyroid hormone flux from the extracellular space to heart cells (V(max(T4))) = 177.84 nM min(-1) for (125)I-T(4) uptake, and K(m(T3)) = 80.0 microM and V(max(T3)) = 118.5 nM min(-1) for (125)I-T(3) uptake. Experimental Physiology (2001) 86.1, 13-18.     

Reactivity to sodium tetrachloropalladate (Na2[PdCl4]) compared to PdCl2 and NiCl2 in lymphocyte proliferation tests

Background: For patch testing, replacement of the commonly used palladium dichloride (PdCl₂) by sodium tetrachloropalladate (Na₂[PdCl₄]) was recently demonstrated to improve test accuracy and show a significant correlation with nickel (Ni), supporting the concept of cross‐reactivity between Pd and Ni. A promising alternative to metal allergy patch testing is the in vitro lymphocyte proliferation test (LTT). Objectives: The aim of this study was to test whether Na₂[PdCl₄] is also more sensitive for diagnosing Pd allergy with a standardized LTT. Patients/methods: After determining optimal nontoxic and nonmitogenic concentrations for Na₂[PdCl₄], blood samples from 105 patients with clinical suspicion of metal allergy were tested with an LTT called memory lymphocyte immuno stimulation assay for Na₂[PdCl₄], PdCl₂ and NiCl₂. Reaction profiles were analysed for concordant positive reactions. Results: Using the conventional cut‐off of stimulation index ≥ 3, 74.3% showed a positive reaction to NiCl₂, 15.2% to PdCl₂ and 28.6% to Na₂[PdCl₄]. All positive results to PdCl₂ were covered by Na₂[PdCl₄]. From the 30 positive reactions to Na₂[PdCl₄], 26 (87%) were concordant for NiCl₂ reactivity. Conclusion: In LTT, the use of Na₂[PdCl₄] results in more positive reactions in Pd allergy testing which are in concordance with positive reactions to PdCl₂ and NiCl₂.     

The relative activities attributable to the three phosphoglucomutase loci (PGM1, PGM,2 PGM3) in human tissues

1. The isozymes attributable to the three phosphoglucomutase loci, PGM_1;PGM₂ and PGM₃, have been separated by agarose-acrylamide gel electrophoresis and their relative activities have been measured in a range of human tissues. 2. In most tissues except red cells and fibroblasts, 85–95 % of the total PGM activity is determined by the PGM₁ locus, 2–15 % is contributed by the PGM₂ locus and 1–2 % is determined by the third locus PGM₃. 3. In fibroblasts the PGM₃ isozymes are relatively much more active and account for nearly 7 % of the total PGM activity. 4. In red cells approximately equal amounts of the PGM₁ and PGM₂ isozymes occur but no PGM₃ isozymes are found. 5. The atypical PGM isozyme pattern observed in red cells is probably a reflexion of in vivo stability differences between the three forms of PGM. In other tissues the PGM isozyme patterns are probably consequent upon differences in rates of synthesis or differences in the specific activities of the gene products.     

Routine applications of DNA fingerprinting with the oligonucleotide probe (CAC)5/(GTG)5

The use of DNA fingerprinting with synthetic oligonucleotides is illustrated for practical applications familiar in clinical diagnostics: pre- and postnatal zygosity determination and the monitoring of bone marrow transplantation. A simple method for non-radioactive detection is described which may be interesting for many diagnostic laboratories.     

Ganglioside GM2 N-acetyl-ß-D-gafactosaminidase and asialo GM2 (GA2) N-acetyl-ß-D-galactosaminidase; studies in human skin fibroblasts

Ganglioside G_M2 and its asialo-derivative, G_A2 were radiolabeled in their N-acetyl-D-galactosaminyl moieties by oxidation with galactose oxidase and reduction with tritiated sodium borohydride. Specific activities of 6 × 10⁴ dpm/nmol (G_M2) and 1.8 × 10⁶ dpm/nmol (G_A2) were achieved. About 98% of the label was in N-acetyl-D-galactosamine. Using these substrates, an assay was developed for G_M2-N-acetyl-β-D-galactosaminidase (E.C.3.2.1.30) and G_A2-N-acetyl-β-D-galactosaminidase (E.C.3.2.1.30) activities in human cultured skin fibroblasts. The products of the G_M2 cleaving reaction were identified as N-acetylgalactosamine and ganglioside G_M3- Both G_M2 and G_A2 cleaving activities were stimulated about 5-fold by purified sodium taurocholate, and this stimulation was inhibited by neutral detergents, lipids and albumin at low concentrations. Addition of various salts, reducing agents and a protein activator factor from human liver of Li et al. (1973) did not stimulate G_M2-N-acetyl-β-D-galactosaminidase activity beyond that found with sodium taurocholate. Under optimal conditions, control fibroblast supernates cleaved ganglioside G_M2 at a rate of 3.7 nmol/mg protein/h compared to 1100 for G_A2-N-acetyl-β-D-galactosaminidase and 4700 for 4-methylumbelliferyl-N-acetyl-β-D-glucosaminidase. Supernates from two patients with Tay-Sachs disease had markedly reduced activity levels for G_M2-N-acetyl-β-D-galactosaminidase but not for the other two substrates. Supernates from two patients with Sandhoff's disease had reduced activities for all three substrates. A supernate from one patient with juvenile G_M2 gangliosidosis cleaved G_M2 at a somewhat faster rate than those from Tay-Sachs or Sandhoff's patients. Two healthy adult women with markedly reduced hexosaminidase A activities using 4MU-N-acetyl-β-D-glucosaminide as substrate had approximately half-normal activities using G_M2 as substrate. A patient with the Tay-Sachs phenotype but with a partial deficiency of hexosaminidase A using the 4-MU substrate had a profound deficiency using G_M2 as substrate. In such unusual hexosaminidase mutants, assays using G_M2 as substrate are better indicators of phenotype than those using synthetic substrates.     

H2 Antihistamines (Cimetidine) and Allergic-Inflammatory Reactions

Experiments in the skin and synovialis have thrown new light on the allergic-inflammatory reactions. The inflammatory effect of histamine is thus due to stimulation of two different types of receptors in the vessels, i.e. histaminergic H1 and H2 receptors. Both types of receptors are of importance for the immediate cutaneous response to allergens and histamine. Treatment with a combination of H1 antagonists (classical antihistamines) and the H2 antagonist cimetidine will thus cause a much stronger inhibition of the urticarial reactions than treatment with the H1 and H2 antagonist alone. It is therefore probable that a combination therapy could have an advantage over the traditional treatment with classical antihistamines in urticaria and other histamine-mediated skin diseases. Histamine might also be of importance for the swelling of the joints in inflammatory diseases such as rheumatoid arthritis, and clinical trials with H1 and H2 antagonists are in progress.     

Linkage relationships between the three phosphoglucomutase loci PGM1, PGM2 and PGM3

1. Phosphoglucomutase phenotypes have been studied in several generations of the family of an individual heterozygous at each of the three loci, PGM₁, PGM₂, and PGM₃. 2. PGM₁ and PGM₂ phenotypes were determined using red cells. Fibroblasts grown in tissue culture were used for PGM₃ phenotyping. 3. The family results support the genetical hypothesis based on the analysis of dizygotic twin pairs that the PGM₃ isozyme patterns found in the placenta are determined by two alleles, PGM¹₃ and PGM²₃. 4. Locus PGM₃ is not closely linked to locus PGM₂ 5. The data also support the previous findings that locus PGM₁ is not closely linked to PGM₂ or PGM₃.