Gender-specific frequency of background somatic mutations at the hypoxanthine phosphoribosyltransferase locus in cord blood T lymphocytes from preterm newborns.

Limited information is available regarding the frequency, spectrum, and clinical relevance of somatic mutations in the developing fetus. The goal of this study was to determine somatic mutant frequencies (Mfs) at the hypoxanthine phosphoribosyltransferase (HPRT) reporter gene in cord blood T lymphocytes from preterm infants to gain insight into in utero mutational events. Mf determinations were made by using the HPRT T cell cloning assay on cord blood samples from 52 preterm infants. Natural logarithm Mfs (lnMfs) from preterm infants were compared with results from our database for full-term infants. Our analysis revealed higher lnMfs in cord blood T lymphocytes from preterm compared with full-term infants (P = 0.008). In addition, preterm females had significantly higher lnMfs compared with full-term females (P < 0.001), whereas preterm males were found to have significantly lower lnMfs than preterm females (P = 0.005). Regression analyses also demonstrate a significant relationship between lnMf and gestational age for preterm females that does not exist for preterm males. These results demonstrate the gender-specific association between Mf and age in humans.

Responsiveness of human infant cerebral arteries to sympathetic nerve stimulation and vasoactive agents.

Responses of segments of basilar and middle cerebral arteries of eight human infants to activation of perivascular nerves and to vasoactive drugs were studied using a resistance artery myograph. The infants ages ranged from 23 wk of gestation to 34 postnatal days. Neurogenic vasoconstriction occurred in all segments and at 8 Hz was 12.7 +/- 3.5% (11%) of tissue maximum and was blocked by phentolamine (10(-6) M). There was no evidence of a neurogenic dilator response. Catecholamine histofluorescence was seen in nerves in the adventitia at all ages studied. Norepinephrine ED50 was 7.6 +/- 1.8 x 10(-7) M, and its maximum effect was 43.1 +/- 5.7% of tissue maximum. Both neural and norepinephrine responses were greater than those of the proximal parts of adult human middle cerebral arteries obtained postmortem and surgically removed adult human pial arteries. Electron microscopy demonstrated that neural density at the adventitiomedial junction in the infant vessels was greater than in the pial arteries. Constrictor responses to serotonin and prostaglandin F2 alpha were minimal in the two infants of 23 and 24 wk of gestation but were clearly present in the older infants. Histamine and acetylcholine were potent vasodilators. Indomethacin potentiated agonist-induced contraction. In a limited number of trials angiotensin II, neuropeptide Y, caused contraction and bradykinin, relaxation. It is concluded that there is a quantitative similarity between the studied responses of infant cerebral artery segments and human pial arteries of similar diameter. However, sympathetic nerves may potentially play a more important role in the regulation of cerebrovascular tone in the infant compared with the adult, and during the gestational period examined these vessels possess an indomethacin-sensitive system that buffers agonist tone.

Atypical background somatic mutant frequencies at the HPRT locus in children and adults with Down syndrome.

People with Down syndrome are 10-30 fold more likely to develop leukemia than the normal population. To date, little is known regarding the molecular mechanisms underlying this phenomenon. We have previously demonstrated that the spontaneous somatic mutant frequency (Mf) at a reporter gene, hypoxanthine-guanine phosphoribosyl transferase (HPRT), from a normal population showed a strict age dependency with an exponential increase in Mf from birth to late adolescents with a subsequent linear 2-5% increase per year in adults. In this study, we compared HPRT Mf in children and adults with Down syndrome using the HPRT T-cell cloning assay. We determined the Mf at the HPRT locus in 27 subjects with Down syndrome from ages 6 months to 53.4 years. Results demonstrated that background somatic Mf at the HPRT locus in children and adults with Down syndrome are not dependent on age as seen in a normal control population. Results also show that adults with Down syndrome have a significantly lower Mf than normal adults, and that children with Down syndrome have a significantly higher Mf than normal children, although the latter appears to be due to a decreased cloning efficiency (CE). These observations demonstrate that the frequency of spontaneous somatic mutations in children and adults with Down syndrome are atypical compared to normal controls, and suggest that the genetic mechanisms associated with background somatic mutational events in children and adults with Down syndrome may be different.

The effects of maternal cigarette smoke exposure on somatic mutant frequencies at the hprt locus in healthy newborns.

We utilized the hprt T-cell cloning assay to prospectively determined the somatic mutant frequency at the hprt locus of fetal T-lymphocytes exposed in utero to maternal active and passive cigarette smoke. In addition, a maternal questionnaire was administered to evaluate a number of social and medical parameters that may effect hprt mutant frequency. Newborn cord blood plasma cotinine levels were determined on all subjects to compare in utero tobacco metabolite levels with maternal smoking histories. A total of 63 newborns were enrolled and placed into four groups: Group I (n = 21), newborns whose mothers had no history of active or passive cigarette exposure during the pregnancy; Group II (n = 12), newborns whose mothers actively smoked cigarettes throughout the pregnancy; Group III (n = 8), newborns whose mothers actively smoked cigarettes during first trimester only; and Group IV (n = 22), newborns whose mothers were exposed only to passive cigarette smoke. Our analysis showed no statistically significant difference in hprt mutation frequency between any of the four groups. A significant increase in plasma cord blood cotinine was detected in Group II, newborns whose mothers were active cigarette smokers throughout the pregnancy. Our data indicate that exposure to active and passive maternal cigarette smoke in utero does not result in a significant increase in somatic mutant frequency as determined by the hprt T-cell cloning assay.

V(D)J recombinase-mediated HPRT mutations in peripheral blood lymphocytes of normal children.

Somatic mutations in the hypoxanthine-guanine phosphoribosyltransferase (hprt) gene are rare occurrences in T-lymphocytes of normal individuals. Lacking pathogenic significance, these events can serve as reporters for assessing environmental genotoxicity. The present molecular analyses of hprt mutations arising spontaneously in normal children show that 30-35% of the genomic hprt changes in children under 5 years of age have approximately 20 Kb deletions encompassing exons 2 and 3. The frequency of these specific changes are dramatically decreased in older children. Sequence analysis of these deletion breakpoint and joining regions reveal the molecular hallmarks of V(D)J recombinase-mediated recombination events. This early childhood hprt mutational spectrum is quite distinct from the adult background spectrum but similar to that reported previously for newborns, as determined in lymphocytes from placental cord blood. The present study also demonstrates that definition of sequences in the hprt deletion joining regions that are analogous to the N-nucleotide insertion hypervariable regions of rearranged T-cell receptor genes allows the same identification of in vivo clonality of mutants as does analysis of the T-cell receptor gene rearrangements themselves. These methods reveal an in vivo clonal amplification of a V(D)J recombinase-mediated hprt mutant clone in one child in the present study. This newly found age-frequency distribution of V(D)J recombinase-mediated hprt mutations correlates with the age-frequency distribution of childhood acute lymphocytic leukemia. A significant number of these malignancies, including acute T-cell leukemia, are also characterized by V(D)J recombinase-mediated recombinations but in critical regions of the genome. hprt, therefore, captures a pathogenic mutagenic mechanism as a harmless mistake which, when it occurs in other genetic regions, may result in malignancy.

Barbiturate attenuation of agonist affinity in cerebral arteries correlates with anesthetic potency and lipid solubility.

Barbiturates are known to reduce agonist sensitivity (EC50) in vascular smooth muscle; we provide evidence that the reduced agonist sensitivity can be correlated with a reduction in agonist affinity for its receptor. The histamine receptor was chosen since this agonist caused a consistent and maximum contraction of the cerebral artery used in this study. Segments of the basilar artery of white New Zealand male rabbits were set up in a small-vessel myograph in physiological salt solution, kept at 37 degrees C, pH 7.4, and bubbled with a 95% oxygen and 5% carbon dioxide gas mixture. The equilibrium dissociation constant (KA) of histamine for its receptor was calculated according to Furchgott's method by making three concentration-response curves to histamine: control, in the presence of phenoxybenzamine (0.02 microM), and after addition of a barbiturate in concentrations between 0.1 and 1.0 mM. All barbiturates tested, i.e., thiamylal, thiopental, pentobarbital, and phenobarbital, significantly reduced both histamine sensitivity and affinity. There is a significant correlation between histamine sensitivity and receptor affinity for histamine in a series of arterial segments from different animals. The attenuation of both pharmacological properties was consistent with the known rank order of anesthetic potency and with lipophilicity (r = 0.98; p < 0.05). Receptor reserve did not correlate with sensitivity. Thus, most of the change in receptor sensitivity was due to a change in agonist affinity. We suggest that barbiturates alter agonist receptor affinity by causing a perturbation in the membrane lipid environment of the receptor, leading to a conformational change, although alterations in intracellular mechanisms cannot be excluded.