The β1 Integrin Distal Promoter is Developmentally Regulated in Transgenic Mice

The use of transgenic animals to manipulate milk composition has considerable potential, both for the production of biomedical proteins and for the direct manipulation of milk composition for the improvement of dairy animals and their products (for reviews, see Wall et al. 1992; Yom & Bremel, 1993). Promoters from a number of milk protein genes from a variety of species have been tested for their ability to direct the expression of foreign proteins to the mammary gland (for review, see Maga & Murray, 1995).β-Lactoglobulin (β-lg) is the major whey protein produced in ruminant milk and is part of the normal milk composition of most mammals except humans and rodents (Pervaiz & Brew, 1985). It is expressed at high levels in the mammary gland and is developmentally regulated. Transgenic mice have been produced using the complete ovine (Simons et al. 1987; Shani et al. 1992) and caprine (Ibañez et al. 1997) β-lg genes. In general, high levels of expression were obtained with the ovine β-lg gene, and expression was also seen in a position-independent manner (Whitelaw et al. 1992). Lower levels of expression were reported using the caprine β-lg gene. Here we report the production of transgenic mice using the bovine β-lg gene. We describe high expression, position-dependent, and copy number-related expression of bovine β-lg protein in the milk of six lines of transgenic mice.

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Developmental regulation of lck gene expression in T lymphocytes.

Journal of Experimental Medicine ◽

10.1084/jem.173.2.383 ◽

1991 ◽

Vol 173 (2) ◽

pp. 383-393 ◽

Cited By ~ 70

Author(s):

R S Wildin ◽

A M Garvin ◽

S Pawar ◽

D B Lewis ◽

K M Abraham ◽

...

Keyword(s):

Transgenic Mice ◽

Short Interval ◽

T Antigen ◽

Lymphoid Cells ◽

Proximal Promoter ◽

Large T Antigen ◽

Sv40 Large T Antigen ◽

Promoter Sequences ◽

Antigen Gene ◽

Distal Promoter

In the mouse and human, mRNA transcripts encoding the lymphocyte-specific protein tyrosine kinase p56lck are derived from two separate promoters resulting in heterogeneity in the 5' untranslated region sequence. The proximal promoter lies just 5' to the coding region for the gene and is active only in thymocytes. In contrast, the distal promoter lies 34 kilobases (kb) 5' in the human, and is active both in thymocytes and mature peripheral T cells. As previously reported, transgenic mice bearing functional proximal promoter sequence juxtaposed with the SV40 large T antigen gene invariably develop lymphoid tumors confined to the thymus. In the current work, transgenic mice bearing a 2.6-kb fragment of the human distal promoter fused to the SV40 large T antigen gene express large T antigen in thymocytes and in peripheral lymphoid cells, and develop tumors of both the thymus and the peripheral lymphoid organs. The ability of the human distal promoter to function appropriately in transgenic mice is consistent with the strong similarity observed between the mouse and human distal promoter sequences. With the exception of a single short interval that serves as a target for binding of nuclear factors, significant sequence similarity is not seen when the distal and proximal promoter sequences are compared. Hence, developmentally regulated, lineage-specific transcription of the lck gene is mediated by distinct promoter sequences that appear to be capable of functioning independently.

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Tissue-specific and developmentally regulated expression of a chimeric actin-globin gene in transgenic mice.

Molecular and Cellular Biology ◽

10.1128/mcb.6.7.2624 ◽

1986 ◽

Vol 6 (7) ◽

pp. 2624-2631 ◽

Cited By ~ 49

Author(s):

M Shani

Keyword(s):

Transgenic Mice ◽

Dna Sequences ◽

Globin Gene ◽

Chimeric Gene ◽

Actin Gene ◽

Muscle Actin ◽

Developmentally Regulated ◽

Tissue Specific ◽

Regulated Expression ◽

Muscle Actin Gene

A chimeric plasmid containing about 2/3 of the rat skeletal muscle actin gene plus 730 base pairs of its 5' flanking sequences fused to the 3' end of a human embryonic globin gene (D. Melloul, B. Aloni, J. Calvo, D. Yaffe, and U. Nudel, EMBO J. 3:983-990, 1984) was inserted into mice by microinjection into fertilized eggs. Eleven transgenic mice carrying the chimeric gene with or without plasmid pBR322 DNA sequences were identified. The majority of these mice transmitted the injected DNA to about 50% of their progeny. However, in transgenic mouse CV1, transmission to progeny was associated with amplification or deletion of the injected DNA sequences, while in transgenic mouse CV4 transmission was distorted, probably as a result of insertional mutagenesis. Tissue-specific expression was dependent on the removal of the vector DNA sequences from the chimeric gene sequences prior to microinjection. None of the transgenic mice carrying the chimeric gene together with plasmid pBR322 sequences expressed the introduced gene in striated muscles. In contrast, the six transgenic mice carrying the chimeric gene sequences alone expressed the inserted gene specifically in skeletal and cardiac muscles. Moreover, expression of the chimeric gene was not only tissue specific, but also developmentally regulated. Similar to the endogenous skeletal muscle actin gene, the chimeric gene was expressed at a relatively high level in cardiac muscle of neonatal mice and at a significantly lower level in adult cardiac muscle. These results indicate that the injected DNA included sufficient cis-acting control elements for its tissue-specific and developmentally regulated expression in transgenic mice.

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Developmentally regulated and erythroid-specific expression of the human embryonic β-globin gene in transgenic mice

Nucleic Acids Research ◽

10.1093/nar/18.18.5465 ◽

1990 ◽

Vol 18 (18) ◽

pp. 5465-5472 ◽

Cited By ~ 30

Author(s):

Diana M. Shih ◽

Robert J. Wall ◽

Steven G. Shapiro

Keyword(s):

Transgenic Mice ◽

Globin Gene ◽

Developmentally Regulated ◽

Specific Expression

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Muscle-Specific Overexpression of the Adenovirus Primary Receptor CAR Overcomes Low Efficiency of Gene Transfer to Mature Skeletal Muscle

Journal of Virology ◽

10.1128/jvi.75.9.4276-4282.2001 ◽

2001 ◽

Vol 75 (9) ◽

pp. 4276-4282 ◽

Cited By ~ 47

Author(s):

J. Nalbantoglu ◽

N. Larochelle ◽

E. Wolf ◽

G. Karpati ◽

H. Lochmuller ◽

...

Keyword(s):

Skeletal Muscle ◽

Gene Transfer ◽

Transgenic Mice ◽

Transgene Expression ◽

Tibialis Anterior Muscle ◽

Gene Promoter ◽

Fold Increase ◽

Developmentally Regulated ◽

Mouse Muscle ◽

Low Efficiency

ABSTRACT Significant levels of adenovirus (Ad)-mediated gene transfer occur only in immature muscle or in regenerating muscle, indicating that a developmentally regulated event plays a major role in limiting transgene expression in mature skeletal muscle. We have previously shown that in developing mouse muscle, expression of the primary Ad receptor CAR is severely downregulated during muscle maturation. To evaluate how global expression of CAR throughout muscle affects Ad vector (AdV)-mediated gene transfer into mature skeletal muscle, we produced transgenic mice that express the CAR cDNA under the control of the muscle-specific creatine kinase promoter. Five-month-old transgenic mice were compared to their nontransgenic littermates for their susceptibility to AdV transduction. In CAR transgenics that had been injected in the tibialis anterior muscle with AdVCMVlacZ, increased gene transfer was demonstrated by the increase in the number of transduced muscle fibers (433 ± 121 in transgenic mice versus 8 ± 4 in nontransgenic littermates) as well as the 25-fold increase in overall β-galactosidase activity. Even when the reporter gene was driven by a more efficient promoter (the cytomegalovirus enhancer–chicken β-actin gene promoter), differential transducibility was still evident (893 ± 149 versus 153 ± 30 fibers; P < 0.001). Furthermore, a fivefold decrease in the titer of injected AdV still resulted in significant transduction of muscle (253 ± 130 versus 14 ± 4 fibers). The dramatic enhancement in AdV-mediated gene transfer to mature skeletal muscle that is observed in the CAR transgenics indicates that prior modulation of the level of CAR expression can overcome the poor AdV transducibility of mature skeletal muscle and significant transduction can be obtained at low titers of AdV.

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Position-independent expression of the ovine β-lactoglobulin gene in transgenic mice

Biochemical Journal ◽

10.1042/bj2860031 ◽

1992 ◽

Vol 286 (1) ◽

pp. 31-39 ◽

Cited By ~ 82

Author(s):

C B Whitelaw ◽

S Harris ◽

M McClenaghan ◽

J P Simons ◽

A J Clark

Keyword(s):

Mammary Gland ◽

Transgenic Mice ◽

Specific Pattern ◽

Proximal Region ◽

Developmentally Regulated ◽

Independent Manner ◽

Milk Whey ◽

Cis Acting ◽

Pregnancy And Lactation ◽

Flanking Region

The major milk whey protein of sheep, beta-lactoglobulin (BLG), is expressed specifically in the mammary gland in a developmentally regulated pattern. To identify the cis-acting DNA regions involved in the regulation of BLG expression, resected gene constructs were analysed in transgenic mice. BLG transgenes which contain at least the proximal 406 bp of the 5′ flanking region were expressed in all mice analysed, at levels related to transgene copy number, and thus were expressed in a position-independent manner. Expression was restricted to the mammary gland, except in a few lines where low-level expression was also detected in the salivary gland. In these mice, BLG transgenes were expressed during pregnancy and lactation in the appropriate temporal pattern. Further resection of the 5′ proximal region to -146 bp resulted in a dramatically reduced frequency of expression, without affecting tissue specificity, while a construct which retained only 79 bp of 5′ flanking region was not expressed. Chromatin analysis of isolated sheep nuclei showed that the promoter resides within a DNAaseI-hypersensitive region in the mammary gland but not in the liver. A BLG transgene displayed a similar tissue-specific pattern of DNAaseI hypersensitivity in mice. These data demonstrate an essential role of the proximal DNAaseI-hypersensitive sequences for position-independent expression of the BLG gene.

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Tunable Transcriptional Interference at the Endogenous Alcohol Dehydrogenase Gene Locus in Drosophila melanogaster

G3 Genes|Genome|Genetics ◽

10.1534/g3.119.400937 ◽

2020 ◽

Vol 10 (5) ◽

pp. 1575-1583 ◽

Cited By ~ 1

Author(s):

Victoria Jorgensen ◽

Jingxun Chen ◽

Helen Vander Wende ◽

Devon E. Harris ◽

Alicia McCarthy ◽

...

Keyword(s):

Drosophila Melanogaster ◽

Alcohol Dehydrogenase ◽

Proximal Promoter ◽

Start Codon ◽

Transcriptional Interference ◽

Developmentally Regulated ◽

Larval Stages ◽

Link Type ◽

Nearby Region ◽

Distal Promoter

Neighboring sequences of a gene can influence its expression. In the phenomenon known as transcriptional interference, transcription at one region in the genome can repress transcription at a nearby region in cis. Transcriptional interference occurs at a number of eukaryotic loci, including the alcohol dehydrogenase (Adh) gene in Drosophila melanogaster. Adh is regulated by two promoters, which are distinct in their developmental timing of activation. It has been shown using transgene insertion that when the promoter distal from the Adh start codon is deleted, transcription from the proximal promoter becomes de-regulated. As a result, the Adh proximal promoter, which is normally active only during the early larval stages, becomes abnormally activated in adults. Whether this type of regulation occurs in the endogenous Adh context, however, remains unclear. Here, we employed the CRISPR/Cas9 system to edit the endogenous Adh locus and found that removal of the distal promoter also resulted in the untimely expression of the proximal promoter-driven mRNA isoform in adults, albeit at lower levels than previously reported. Importantly, transcription from the distal promoter was sufficient to repress proximal transcription in larvae, and the degree of this repression was dependent on the degree of distal promoter activity. Finally, upregulation of the distal Adh transcript led to the enrichment of histone 3 lysine 36 trimethylation over the Adh proximal promoter. We conclude that the endogenous Adh locus is developmentally regulated by transcriptional interference in a tunable manner.

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Tissue-specific and developmentally regulated expression of human elastin promoter activity in transgenic mice.

Journal of Biological Chemistry ◽

10.1016/s0021-9258(17)32418-3 ◽

1994 ◽

Vol 269 (27) ◽

pp. 18072-18075

Author(s):

S. Hsu-Wong ◽

S.D. Katchman ◽

I. Ledo ◽

M. Wu ◽

J. Khillan ◽

...

Keyword(s):

Transgenic Mice ◽

Promoter Activity ◽

Developmentally Regulated ◽

Tissue Specific ◽

Regulated Expression

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β1 integrin activates Rac1 in Schwann cells to generate radial lamellae during axonal sorting and myelination

The Journal of Cell Biology ◽

10.1083/jcb.200610014 ◽

2007 ◽

Vol 177 (6) ◽

pp. 1063-1075 ◽

Cited By ~ 107

Author(s):

Alessandro Nodari ◽

Desirée Zambroni ◽

Angelo Quattrini ◽

Felipe A. Court ◽

Alessandra D'Urso ◽

...

Keyword(s):

Transgenic Mice ◽

Schwann Cells ◽

Β1 Integrin ◽

Rac1 Activity ◽

Β1 Integrins ◽

Glial Membrane ◽

Axonal Sorting ◽

Peripheral Glia

Myelin is a multispiraled extension of glial membrane that surrounds axons. How glia extend a surface many-fold larger than their body is poorly understood. Schwann cells are peripheral glia and insert radial cytoplasmic extensions into bundles of axons to sort, ensheath, and myelinate them. Laminins and β1 integrins are required for axonal sorting, but the downstream signals are largely unknown. We show that Schwann cells devoid of β1 integrin migrate to and elongate on axons but cannot extend radial lamellae of cytoplasm, similar to cells with low Rac1 activation. Accordingly, active Rac1 is decreased in β1 integrin–null nerves, inhibiting Rac1 activity decreases radial lamellae in Schwann cells, and ablating Rac1 in Schwann cells of transgenic mice delays axonal sorting and impairs myelination. Finally, expressing active Rac1 in β1 integrin–null nerves improves sorting. Thus, increased activation of Rac1 by β1 integrins allows Schwann cells to switch from migration/elongation to the extension of radial membranes required for axonal sorting and myelination.

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