93 research outputs found
Respiratory symptoms among infants at risk for asthma: association with surfactant protein A haplotypes
BACKGROUND: We examined the association between single nucleotide polymorphisms (SNPs) in loci encoding surfactant protein A (SFTPA) and risk of wheeze and persistent cough during the first year of life among a cohort of infants at risk for developing asthma. METHODS: Between September 1996 and December 1998, mothers of newborn infants were invited to participate if they had an older child with clinician-diagnosed asthma. Each mother was given a standardized questionnaire within 4 months of her infant's birth. Infant respiratory symptoms were collected during quarterly telephone interviews at 6, 9 and 12 months of age. Due to the association of SFTPA polymorphisms and race/ethnicity, analyses were restricted to 221 white infants for whom whole blood and respiratory data were available. Ordered logistic regression models were used to examine the association between respiratory symptom frequency and SFTPA haplotypes. RESULTS: The 6A allele haplotype of SFTPA1, with an estimated frequency of 6% among our study infants, was associated with an increased risk of persistent cough (OR 3.69, 95% CI 1.71, 7.98) and wheeze (OR 4.72, 95% CI 2.20, 10.11). The 6A/1A haplotype of SFTPA, found among approximately 5% of the infants, was associated with an increased risk of persistent cough (OR 3.20, 95% CI 1.39, 7.36) and wheeze (OR 3.25, 95% CI 1.43, 7.37). CONCLUSION: Polymorphisms within SFTPA loci may be associated with wheeze and persistent cough in white infants at risk for asthma. These associations require replication and exploration in other ethnic/racial groups
Mast cell glycosaminoglycans
Mast cells contain granules packed with a mixture of proteins that are released on degranulation. The proteoglycan serglycin carries an array of glycosaminoglycan (GAG) side chains, sometimes heparin, sometimes chondroitin or dermatan sulphate. Tight packing of granule proteins is dependent on the presence of serglycin carrying these GAGs. The GAGs of mast cells were most intensively studied in the 1970s and 1980s, and though something is known about the fine structure of chondroitin sulphate and dermatan sulphate in mast cells, little is understood about the composition of the heparin/heparan sulphate chains. Recent emphasis on the analysis of mast cell heparin from different species and tissues, arising from the use of this GAG in medicine, lead to the question of whether variations within heparin structures between mast cell populations are as significant as variations in the mix of chondroitins and heparins
Neurotransmission by atp: new insights, novel mechanisms
Purines have long been known for their roles in extracellular signaling. One of the most interesting functions to come to light recently has been the involvement, particularly of adenosine 5'-triphosphate (ATP), as a neurotransmitter in the central and the sympathetic nervous system. ATP is stored in and released from synaptic nerve terminals, like other neurotransmitters, and is known to act post-synaptically via specific rapidly-conducting, ligand-gated ion channels, the P-2X receptors. Another interesting feature is the discovery that ATP is widely found to be a "co-transmitter" at the same synapses in combination with other neurotransmitters such as noradrenaline, acetylcholine, and GABA, altering our picture of the biophysics and biochemistry of neurotransmission at these synapses. We describe here these and other aspects of neurotransmission by ATP being investigated vigorously today, including recent findings on P-2X receptors and those on the synaptic inactivation of ATP by ecto-ATPase. We conclude by pointing out possible pharmacological and. clinical implications of neurotransmission by ATP
Effects of carbenoxolone on syncytial electrical properties and junction potentials of guinea-pig vas deferens
The effects of the putative gap junction blocker carbenoxolone on smooth muscle syncytial properties and junction potentials were studied in guinea pig vas deferens (GPVD). Treatment with 50 mu M carbenoxolone reversibly and significantly increased input resistance (R-in) ( by 682.5 +/- 326.0 %, P < 0.05) and abolished cable potentials within 6 7 mins of incubation, without disturbing resting membrane potential. Carbenoxolone reversibly and significantly increased the amplitude of spontaneous excitatory junction potentials (sEJPs) by 96.9 +/- 35.45% (P < 0.05), shifted their amplitude distribution rightwards, and reduced their frequency of occurrence by 58.17 +/- 17.7% (P < 0.05), without altering their time courses. Similarly, carbenoxolone increased the amplitude of evoked excitatory junction potentials (eEJPs) by 17.7 +/- 5.88% and tau(decay) by 19.43 +/- 8.29% (P < 0.05). Our results indicate that carbenoxolone alters the electrical properties and junctional potentials of the GPVD by a mechanism consistent with a relatively specific block of gap junctions. These results suggest that gap junction mediated cell-to-cell communication may significantly modulate the electrical properties and junctional potentials of the GPVD and consequently the physiological functioning of this tissue
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