P E Matrisian scite author profile

The first primary structure for a nonmuscle myosin light chain kinase (nmMLCK) has been determined by elucidation of the cDNA sequence encoding the protein kinase from chicken embryo fibroblasts, and insight into the molecular mechanism of calmodulin (CaM) recognition and activation has been obtained by the use of site-specific mutagenesis and suppressor mutant analysis. Treatment of chicken and mouse fibroblasts with antisense oligodeoxynucleotides based on the cDNA sequence results in an apparent decrease in MLCK levels, an altered morphology reminiscent of that seen in v-src-transformed cells, and a possible effect on cell proliferation. nmMLCK is distinct from and larger than smooth muscle MLCK (smMLCK), although their extended DNA sequence identity is suggestive of a close genetic relationship not found with skeletal muscle MLCK. The analysis of 20 mutant MLCKs indicates that the autoinhibitory and CaM recognition activities are centered in distinct but functionally coupled amino acid sequences (residues 1,068-1,080 and 1,082-1,101, respectively). Analysis of enzyme chimeras, random mutations, inverted sequences, and point mutations in the 1,082-1,101 region demonstrates its functional importance for CaM recognition but not autoinhibition. In contrast, certain mutations in the 1,068-1,080 region result in a constitutively active MLCK that still binds CaM. These results suggest that CaM/protein kinase complexes use similar structural themes to transduce calcium signals into selective biological responses, demonstrate a direct link between nmMLCK and non-muscle cell function, and provide a firm basis for genetic studies and analyses of how nmMLCK is involved in development and cell proliferation.

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Structure and expression of a calcium-binding protein gene contained within a calmodulin-regulated protein kinase gene.

Collinge¹,

Matrisian²,

Zimmer³

et al. 1992

Mol. Cell. Biol.

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We have determined the first genomic structure and characterized the mRNA and protein products of a novel vertebrate gene that encodes a calcium-binding protein with amino acid sequence identity to a protein kinase domain. The elucidation of the complete DNA sequence of this transcription unit and adjacent genomic DNA, Southern blot and polymerase chain reaction analyses of cellular genomic DNA, and examination of mRNA and protein species revealed that the calcium-binding kinase-related protein (KRP)-encoding gene is contained within the gene for a calmodulin-regulated protein kinase, myosin light-chain kinase (MLCK). The KRP gene transcription unit is composed of three exons and a 5'-flanking sequence containing a canonical TATA box motif. The TATA box, the transcription initiation site, and the first 109 nucleotides of the 5' noncoding region of the KRP mRNA correspond to an MLCK gene intron sequence. Both KRP and MLCK are produced in the same adult chicken tissue in relatively high abundance from a single contiguous stretch of genomic DNA and utilize the same reading frame and common exons to produce distinct mRNAs (2.7 and 5.5 kb, respectively) that encode proteins with dissimilar biochemical functions. There appears to be no precedent in vertebrate molecular biology for such a relationship. This may represent a mechanism whereby functional diversity can be achieved within the same vertebrate tissue by use of common exons to produce shuffled domains with identical amino acid sequences in different molecular contexts.

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Blastocyst-dependent upregulation of metalloproteinase/disintegrin MDC9 expression in rabbit endometrium

Olson

Winfrey

Matrisian

et al. 1998

Cell and Tissue Research

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Blastocyst attachment to mammalian uteri at implantation involves the adhesion of the trophoblast to the uterine epithelial surface. In the rabbit, fusion between adjacent epithelial cells precedes the initial attachment phase and is followed by fusion between the trophoblast and the epithelium. The reverse transcription/polymerase chain reaction method has been used to prepare a partial cDNA (rbMDC9) from periimplantation-stage endometrium; this represents the rabbit ortholog of MDC9, a member of the cellular metalloproteinase/disintegrin (ADAM) gene family. We demonstrate here the reproductive stage-specific expression of rbMDC9 mRNA in uterine epithelium during the periimplantation period. Furthermore, this expression is upregulated at implantation sites, and in situ hybridization analysis has revealed that the epithelial cells with the most prominent signal are those apposed to blastocysts. Immunostaining with E-cadherin has been used to trace lateral membranes of epithelial cells and, together with nuclear staining, has enabled the identification of cells fusing to become multinucleated cells, and later, to become an epithelial syncytium (symplasma). These fusing cells express the highest level of rbMDC9 mRNA. The results suggest that MDC9, a transmembrane modular protein with domains having potential integrin-binding, metalloproteinase, and fusogenic functions, is probably critical for the cellular interactions accompanying blastocyst implantation.

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Specific expression of haptoglobin mRNA in implantation-stage rabbit uterine epithelium

Olson

Winfrey²,

Matrisian³

et al. 1997

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A glycoprotein, termed GP42, was previously identified in uterine fluid obtained from peri-implantation-stage rabbits. N-terminus amino acid sequencing of purified GP42 demonstrated identity through the first 13 amino acids with the beta subunit of liver haptoglobin. The present study was undertaken to determine if GP42 is indeed identical to haptoglobin and, if so, to determine whether it is expressed in the uterus as opposed to being present as a transudate from plasma. Reverse transcription-PCR amplification of poly(A)+ RNA prepared from implantation-stage rabbit endometrium with GP42- and haptoglobin-specific primers yielded a predicted 667 bp cDNA product. Sequence analysis of the cloned cDNA confirmed the identity of GP42 with beta-haptoglobin. Northern blot analysis demonstrated the specific expression of haptoglobin mRNA in the peri-implantation-stage endometrium and the absence of its expression in the estrous or day 4 pseudopregnant endometrium. Non-isotopic in situ hybridization revealed that the haptoglobin mRNA was restricted to the epithelium lining the luminal surface and mucosal folds of day 6(3/4) pregnant or pseudo-pregnant uteri and that no haptoglobin mRNA was detectable in the epithelium of the deep glands or cells of the stroma or myometrium. Similarly, in situ hybridization revealed no expression of haptoglobin mRNA in any cell types of the estrous uterus. These data establish the identity of GP42 with beta-haptoglobin and demonstrate that it is expressed in a stage-specific manner just prior to implantation, correlating with uterine receptivity to blastocyst implantation. Endometrial GP42 mRNA expression is not dependent on the presence of blastocysts.

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Structure and Expression of a Calcium-Binding Protein Gene Contained within a Calmodulin-Regulated Protein Kinase Gene

Collinge

Matrisian

Zimmer

et al. 1992

Molecular and Cellular Biology

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P E Matrisian

Use of DNA sequence and mutant analyses and antisense oligodeoxynucleotides to examine the molecular basis of nonmuscle myosin light chain kinase autoinhibition, calmodulin recognition, and activity.

Structure and expression of a calcium-binding protein gene contained within a calmodulin-regulated protein kinase gene.

Blastocyst-dependent upregulation of metalloproteinase/disintegrin MDC9 expression in rabbit endometrium

Specific expression of haptoglobin mRNA in implantation-stage rabbit uterine epithelium

Structure and Expression of a Calcium-Binding Protein Gene Contained within a Calmodulin-Regulated Protein Kinase Gene

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