Tissue‐Specific Expression of Promoter Regions of the αr1(VI) Collagen Gene in Cell Cultures and Transgenic Mice

Braghetta, Paola; Vitale, Paola; Piccolo, Stefano; Bonaldo, Paolo; Fabbro, Carla; Girotto, Davide; Volpin, Dino; Bressan, Giorgio M.

doi:10.1111/j.1432-1033.1997.00200.x

Cited by 14 publications

(11 citation statements)

References 36 publications

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“…Although, as stated above, no locus control regions have been defined yet, a correspondence between hypersensitive sites and actual transcription has been found also for collagen genes, in particular ␣2(I) and ␣1(I) (5,11). As for the manner in which the different cis-acting regulatory elements contribute to the transcriptional regulation of a collagen gene, the available data suggest that they act in a modular way (4,5,12,13). As proposed recently by Arnone and Davidson (14), this means that each region contributes "a particular regulatory function that is a subfraction of the overall combined regulatory function executed by the complete system" independently from the other regions.…”

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confidence: 99%

Cell Type-specific Transcription of the α1(VI) Collagen Gene

Fabbro

Braghetta

Girotto

et al. 1999

Journal of Biological Chemistry

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Analysis of the chromatin of different cell types has identified four DNase I-hypersensitive sites in the 5-flanking region of the ␣1(VI) collagen gene, mapping at ؊4.6, ؊4.4, ؊2.5, and ؊0.1 kilobase (kb) from the RNA start site. The site at ؊2.5 kb was independent from, whereas the other three sites could be related to, ␣1(VI) mRNA expression. The site at ؊0.1 kb was present in cells expressing (NIH3T3 and C2C12) but absent in cells not expressing (EL4) the mRNA; the remaining two sites were apparently related with high levels of mRNA. DNase I footprinting and gel-shift assays with NIH3T3 and C2C12 nuclear extracts have located a binding site for transcription factor AP1 (activator protein 1) between nucleotides ؊104 and ؊73. When nuclear extracts from EL4 lymphocytes were used, the AP1 site-containing sequence was bound by proteins not related to AP1. The existence of the hypersensitive site at ؊0.

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confidence: 99%

Cell Type-specific Transcription of the α1(VI) Collagen Gene

Fabbro

Braghetta

Girotto

et al. 1999

Journal of Biological Chemistry

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“…Finally, the sequence between about Ϫ5.4 to Ϫ3.9 kb from the transcription start site contains information for expression in articular cartilage, intervertebral disks, nerves, vibrissae, and subepidermal mesenchyme. The strong activating capacity of the Ϫ5.4-to Ϫ3.9-kb sequence has been confirmed by experiments with transgenic mice, where promoter-CAT fusions including this region are expressed in several tissues over 100 times more efficiently than constructs lacking it (9). One interesting feature of the Ϫ5.4/Ϫ3.9 region is that information controlling transcription in cells with different embryological origin and function, including articular chondrocytes, Schwann cells, 2 and fibroblasts, is enclosed in a relatively small DNA fragment, 1.5 kb, a size compatible with that of a single enhancer (11).…”

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confidence: 77%

“…C2C12 myoblasts were not used in this experiments because we had previously demonstrated that there is no significant difference of CAT expression between p1.4(A-P)CAT and p1.4CAT (9). On the contrary, the whole enhancer region increased transcription considerably in NIH3T3, MC615, and sternal chondroblasts from chick embryos (Fig.…”

Section: Transient Transfections With Deletions Of the ϫ54/ϫ39 Regionmentioning

confidence: 99%

“…These include p5.4⌬(4.0 -1.4)lacZ and p5.4⌬(4.0 -1.4)CAT (8,9), renamed p1.4(A-P)lacZ and p1.4(A-P)CAT.…”

Section: Methodsmentioning

confidence: 99%

“…Our group has undertaken the study of regulation of collagen VI in the mouse and has identified several sequences of the 5Ј-flanking region of the Col6a1 gene active in transcriptional control (7)(8)(9)(10). In particular, analyses in transgenic mice have located three regions responsible for tissue-specific transcription at high frequency (8).…”

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Analysis of Transcription of the Col6a1 Gene in a Specific Set of Tissues Suggests a New Variant of Enhancer Region

Girotto

Fabbro

Braghetta

et al. 2000

Journal of Biological Chemistry

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The region extending from ؊5.4 to ؊3.9 kilobase pairs from the transcription start site of the Col6a1 gene has been previously shown to contain sequences activating tissue-specific transcription in articular cartilage, intervertebral disks, subepidermal, and vibrissae mesenchyme and peripheral nervous system (Braghetta, P., Fabbro, C., Piccolo, S., Marvulli, D., Bonaldo, P., Volpin, D., and Bressan, G. M. (1996) J. Cell Biol. 135, 1163-1177). Analysis of expression of deletions of this region in transgenic mice has identified the 383-base pair fragment E-L as the most active sequence of the region. Linker-scanning mutagenesis analysis of segment E-J, which spans the 5 245 base pairs of E-L and is sufficient for high frequency expression in articular cartilage, showed that all the mutations reduced transcription considerably, suggesting that the integrity of the entire cluster of elements is necessary for enhancer activity. Electrophoretic mobility shift assays with nuclear extracts derived from various sources showed that fragment E-J binds numerous transcription factors (at least 22). These factors are present in most cells, expressing and nonexpressing ␣1(VI) collagen mRNA, but in different relative proportions, and none of them appears to be cell type-specific. Several lines of evidence indicate that sequence elements of the enhancer may have different functional roles in various cells. The data configure the ؊5.4/؊3.9 region of the Col6a1 gene as a new type of tissue-specific enhancer, characterized by a variety of tissues supporting its activation and by the dependence of its function only on ubiquitous transcription factors. This type of enhancer is postulated to be particularly important for genes such as those of the extracellular matrix, which are often expressed with broad tissue specificity.Genes of the extracellular matrix are very often among targets of terminal differentiation programs. In most cases, expression of the genes is the result of transcriptional regulation attained by tissue-specific enhancers. Well characterized examples are genes such as osteocalcin, collagen I, osteopontin, and bone sialoprotein in osteoblasts, and collagen II and XI in chondroblasts. The exclusive transcription of osteocalcin and the high level expression of ␣1(I) collagen, osteopontin, and bone sialoprotein are controlled by sequences binding Osf2/ Cbfa1, a transcription factor necessary for the differentiation of osteoblasts (1), whereas transcription of ␣1(II) and ␣2(XI) genes requires sequences recognized by Sox9 and other members of the high mobility group class of transcription factors, which are involved in cartilage differentiation (2-6). Thus, the identification and analysis of enhancers responsible for tissuespecific expression of extracellular matrix components are important not only to understand the regulation of their genes but also to clarify the genetic control of differentiation programs.Our group has undertaken the study of regulation of collagen VI in the mouse and has identified several sequences...

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