Identification of a mitochondrial target of thiazolidinedione insulin sensitizers (mTOT)--relationship to newly identified mitochondrial pyruvate carrier proteins.

Thiazolidinedione (TZD) insulin sensitizers have the potential to effectively treat a number of human diseases, however the currently available agents have dose-limiting side effects that are mediated via activation of the transcription factor PPARγ. We have recently shown PPARγ-independent actions of TZD insulin sensitizers, but the molecular target of these molecules remained to be identified. Here we use a photo-catalyzable drug analog probe and mass spectrometry-based proteomics to identify a previously uncharacterized mitochondrial complex that specifically recognizes TZDs.

Mother's genome or maternally-inherited genes acting in the fetus influence gestational age in familial preterm birth.

Objective: While multiple lines of evidence suggest the importance of genetic contributors to risk of preterm birth, the nature of the genetic component has not been identified. We perform segregation analyses to identify the best fitting genetic model for gestational age, a quantitative proxy for preterm birth.

Methods: Because either mother or infant can be considered the proband from a preterm delivery and there is evidence to suggest that genetic factors in either one or both may influence the trait, we performed segregation analysis for gestational age either attributed to the infant (infant's gestational age), or the mother (by averaging the gestational ages at which her children were delivered), using 96 multiplex preterm families.

Developmental and genetic regulation of human surfactant protein B in vivo.

Background: Genetic and developmental disruption of surfactant protein B (SP-B) expression causes neonatal respiratory distress syndrome (RDS).

Objectives: To assess developmental and genetic regulation of SP-B expression in vivo.

Methods: To evaluate in vivo developmental regulation of SP-B, we used immunoblotting to compare frequency of detection of mature and pro-SP-B peptides in developmentally distinct cohorts: 24 amniotic fluid samples, unfractionated tracheal aspirates from 101 infants >or=34 weeks' gestation with (75) and without (26) neonatal RDS, and 6 nonsmoking adults.

Recombination as a mechanism for sporadic mutation in the surfactant protein-C gene.

Objective: To determine haplotype background of common mutations in the genes encoding surfactant proteins B and C (SFTPB and SFTPC) and to assess recombination in SFTPC.

Study Design: Using comprehensive resequencing of SFTPC and SFTPB, we assessed linkage disequilibrium (LD) (D'), and computationally inferred haplotypes. We computed average recombination rates and Bayes factors (BFs) within SFTPC in a population cohort and near SFTPC (+/-50 kb) in HapMap cohorts.

Comprehensive genetic variant discovery in the surfactant protein B gene.

Completely penetrant mutations in the surfactant protein B gene (SFTPB) and >75% reduction of SFTPB expression disrupt pulmonary surfactant function and cause neonatal respiratory distress syndrome. To inform studies of genetic regulation of SFTPB expression, we created a catalogue of SFTPB variants by comprehensive resequencing from an unselected, population-based cohort (n = 1,116). We found an excess of low-frequency variation [81 SNPs and five small insertion/deletions (in/dels)].

Genetic variant characterization in intron 4 of the surfactant protein B gene.

Genetic variants in intron 4 of the surfactant protein B gene SFTPB have been associated with pulmonary morbidity in newborn infants and adults. Genetic variant discovery in intron 4 requires high fidelity polymerase amplification due to a variable number of intermotif dinucleotide repeats and reliable characterization of alleles genetically distinct due to insertion, deletion, or both of 11 conserved sequence motifs. To optimize genetic variant discovery, we selected a high fidelity polymerase enzyme by replicate amplification and compared automated sequencing with agarose gel electrophoresis for all variant alleles (N=68) in a cohort of Missouri infants with (N=187) and without (N=53) respiratory distress.

Informed consent for genetic research.

Background: Rapid technological advances in genetic research and public concern about genetic discrimination have led to anticipatory safeguards in the informed consent process in the absence of legal examples of proven discrimination. Despite federal and state regulations to restrict access to personal health information, including genetic information, institutional review boards have required the addition of language to informed consent documents that warns about the risks of discrimination with participation in genetic research.

Objective: To determine the reasons that families refused consent for their infant's participation in a study evaluating a genetic cause of respiratory distress syndrome.