Chondrocyte-specific enhancer elements in the Col11a2 gene resemble the Col2a1 tissue-specific enhancer

Type XI collagen and type II collagen are coexpressed in all cartilage, and both are essential for normal cartilage differentiation and skeletal morphogenesis. This laboratory has recently identified a 48-base pair (bp) enhancer element in the type II collagen gene Col2a1 that contains several HMG-type protein-binding sites and that can direct chondrocyte-specific expression in transient transfection and in transgenic mice. The present study has identified two short chondrocyte-specific enhancer elements within a region in the 5' portion of the type XI collagen gene Col11a2 that has previously been shown to influence chondrocyte-specific expression in transgenic mice. These Col11a2 enhancer elements, like the Col2a1 enhancer, contain several sites with homology to the high mobility group (HMG) protein-binding consensus sequence. In electrophoretic mobility shift assays, the Col11a2 elements formed a DNA-protein complex that was dependent on the presence of the HMG-like sites. It had the same mobility as the complex formed with the Col2a1 48-bp enhancer and appeared to contain the same or similar proteins, including SOX9. The Col11a2 elements directed gene expression in transient transfections of chondrocytes but not fibroblasts, and their activity was abolished by mutation of the HMG-like sites. Ectopically expressed SOX9 activated these enhancers in non-chondrocytic cells, as it also activates the Col2a1 enhancer. Finally, the Col11a2 enhancer elements both directed transgene expression to cartilage in developing mouse embryos. Overall, our results indicate that the two Col11a2 chondrocyte-specific enhancer elements share many similarities with the Col2a1 48-bp enhancer. These similarities suggest the existence of a genetic program designed to coordinately regulate the expression of these and perhaps other genes involved in the chondrocyte differentiation pathway.     

Identification of a homolog of the C alpha 3'/hs3 enhancer and of an allelic variant of the 3'IgH/hs1,2 enhancer downstream of the human immunoglobulin alpha 1 gene

Although four regulatory elements are known downstream of the mouse IgH alpha gene, a single enhancer homologous to hs1,2 has been thus far described downstream of each human alpha gene (Chen, C. and Birshtein, B. K., J. Immunol. 1997. 159: 1310). We characterized a 10-kb region downstream of the human alpha 1 gene. Two B cell-specific regulatory elements homologous to the murine C alpha 3'/hs3 and hs1,2,3' enhancers were found, which are duplicated downstream of alpha 2. The hs1,2 element is in inverted orientation by comparison with a recently reported alpha 1 hs1,2 element: it appears as a common allelic variant carrying an internal tandem repeat insertion and its prevalence in the human population is 60%. As in the mouse, the human hs1,2 enhancer is flanked with long inverted repeats which may have promoted inversion events through homologous recombination. Although the palindromic organization of the region is maintained in human, sequence identity with rodents focuses on core enhancer elements rather than on flanking repeats. Concerted divergence of both sides of the dyad symmetry suggests that inverted repeats are not just evolutionary remnants but rather play an architectural role in the LCR function.     

cDNA fingerprinting of osteoprogenitor cells to isolate differentiation stage-specific genes

A cDNA fingerprinting strategy was developed to identify genes based on their differential expression pattern during osteoblast development. Preliminary biological and molecular staging of cDNA pools prepared by global amplification PCR allowed discrim-inating choices to be made in selection of expressed sequence tags (ESTs) to be isolated. Sequencing of selected ESTs confirmed that both known and novel genes can be isolated from any developmental stage of interest, e.g. from primitive progenitors, intermediate precursors or mature osteoblasts. EST expression provides insight into possible interrelated physiological functions and putative interacting molecules during differentiation. This method offers a functional genomics approach to isolate differentiation stage-specific genes in samples as small as a single cell.     

Hormonal regulation of an islet-specific enhancer in the pancreatic homeobox gene STF-1

The homeobox protein STF-1 appears to function as a master control switch for expression of the pancreatic program during development. Here we characterize a composite enhancer which directs STF-1 expression to pancreatic islet cells via two functional elements that recognize the nuclear factors HNF-3beta and BETA-2. In keeping with their inhibitory effects on islet cell maturation, glucocorticoids were found to repress STF-1 gene expression by interfering with HNF-3beta activity on the islet-specific enhancer. Overexpression of HNF-3beta suppressed glucocorticoid receptor-mediated inhibition of the STF-1 gene, and our results suggest that the expansion of pancreatic islet precursor cells during development may be restricted by hormonal cues which regulate STF-1 gene expression.     

Identification of a self-association region within the SCA1 gene product, ataxin-1

OBJECTIVES: To report the association between the protease inhibitor indinavir and the development of urolithiasis. METHODS: Case reports of three adult patients infected with the human immunodeficiency virus who developed surgical renal stones while being treated with indinavir are presented. RESULTS: Of the 3 patients requiring surgical intervention, stone analyses were available in 2. One stone revealed an inner core of an unidentifiable crystal surrounded by calcium oxalate, and another was found to have indinavir components as determined by thin-layer chromatography and gas chromatography-mass spectrometry. Metabolic evaluation of all 3 patients identified significant hypocitraturia as an isolated finding. CONCLUSIONS: The widely used protease inhibitor indinavir is associated with the development of urolithiasis and may act as a nidus for heterogeneous nucleation leading to the development of mixed urinary stones. Surgical intervention may be necessary in some cases. Underlying metabolic abnormalities may contribute to the increased incidence of stone formation. Urologists and other health care providers should be aware of this association, as combined medical and surgical intervention may be necessary.     

Identification of cell type-dependent enhancer core element located in the 3'-downstream region of the human angiotensinogen gene

We previously demonstrated that the 3.8-kilobase DNA fragment containing exons 4 and 5 of the human angiotensinogen (hAG) gene enhances the expression of chloramphenicol acetyltransferase gene, under control of the hAG promoter, in human hepatoma HepG2 cells. In the present study, to define regulatory elements of the hAG gene, we have functionally dissected this downstream region and localized a cell type-dependent enhancer to the 832-base pair sequence containing the exon 5 and 3'-flanking region. Further deletion analyses revealed that the 24-base pair core DNA fragment present in the 3'-flanking region was responsible for this enhancement. Electrophoretic mobility shift assay demonstrated that the 3'-enhancer core element interacts specifically with two nuclear factors from the HepG2 cells, one of which is an uncharacterized factor (human angiotensinogen enhancer factor-1: hAEF-1), the other is an AP-3-related factor. Mutation analyses indicated that the disruption of hAEF-1 binding alone completely impaired the enhancer activity of the core element. These results suggested that the downstream enhancer core element interacting with hAEF-1 plays an important role in activating the angiotensinogen promoter in a cell type-dependent manner.