Steroid receptor-mediated inhibition of rat prolactin gene expression does not require the receptor DNA-binding domain

Prolactin gene expression is negatively regulated by glucocorticoids, and by estrogens when positive estrogen regulatory elements in the prolactin gene are removed. Mutational analysis of estrogen receptor confirms that inhibition is a function of receptor, and that transcriptional activation and inhibition require distinct, separable structural elements. Inhibition is dependent on a 63 amino acid region (amino acids 251-314) distinct from the DNA-binding and steroid-binding domains. The comparable region of glucocorticoid receptor confers inhibitory actions on a hybrid receptor. Multiple, nonoverlapping sequences in the rat prolactin 5'-flanking genomic region that confer inhibition by both steroid hormones contain related cis-active elements that bind a common, tissue-specific positive transcription factor, called Pit-1. Experimental results indicate that positive and negative transcriptional effects of estrogen receptor are mediated by separate functional domains, and suggest the protein-protein interactions between steroid hormone receptors and other transcription factor(s) mediate inhibition.

Acute inflammation of the knee joint in the cat alters responses of flexor motoneurons to leg movements

1. This is a report of changes in reflex excitability of flexor motoneurons in response to innocuous mechanical stimuli following initiation of an acute experimental inflammation of the knee joint in the chloralose-anaesthetized cat spinalized at level T12. 2. Activity of functionally single alpha- or gamma- motoneurons, identified by ventral root stimulation, was recorded in filaments of the nerve to biceps semitendinosus before and after onset of an acute inflammation. The inflammation was evoked by injection into the knee cavity of the compounds kaolin and carrageenan. 3. Measurements were made of resting activity, responses to local pressure applied to parts of the upper or lower limb, and to flexion or extension movements at the knee joint before and after onset of the inflammation. In two experiments, one in which no inflammation was initiated, and another in which recordings were made only after the inflammation had fully developed, a survey of large numbers of neurons (44 alpha and 84 gamma) showed that under control conditions only 14% of alpha-motoneurons showed a response to mechanical stimulation compared with 41% of gamma-motoneurons. In the presence of an inflammation 41% of alpha-cells were responsive compared with 64% of gamma-cells. 4. Inflammation-induced changes in activity of motoneurons including both excitatory and inhibitory effects, took 1-2 h to fully develop. Excitatory effects included a rise in resting discharge, an increase in the response to local pressure, and an increased response to flexion and/or to extension of the knee. Inhibitory effects included falls in resting discharge and/or in the responses to leg movements. 5. For 35 cells identified as alpha-motoneurons and tested both before and after initiation of an inflammation, 20 remained unresponsive throughout the experiment, whereas 4 that had not responded during the control period began after inflammation to respond to local pressure and/or flexion/extension movements. Of 11 units that exhibited some response before inflammation, 8 showed an increase with inflammation, whereas 2 became unresponsive. 6. The inflammation had rather more dramatic effects on gamma-neurons. Many showed control responses to leg movements, and these were measurably modified by inflammation. Of 56 gamma-cells tested under control conditions, 26 were unresponsive to all stimuli, whereas 30 showed some form of response including activity during flexion and extension movements of the leg. Where responses were tested both before and after onset of an inflammation, 11 of 13 unresponsive units remained unresponsive.(ABSTRACT TRUNCATED AT 400 WORDS)

Molecular basis of beta thalassemia in south China. Strategy for DNA analysis

The phenotype of beta thalassemia can be caused by over 40 different mutations. To set up a prenatal diagnosis program using DNA analysis, it is important to determine the type and frequency of mutation in a particular geographic area. We have delineated the molecular lesions that cause beta thalassemia in the Guangdong province of China, and found six mutations in four different haplotypes. The surprising finding that five of these mutations each occur in two different haplotypes suggests the occurrence of crossing over or gene conversion events at the beta-globin locus. The delineation of the haplotypes and mutations will permit the choice of the appropriate probes for prenatal detection of beta thalassemia in this part of China.