Structure of mouse calpastatin isoforms: implications of species-common and species-specific alternative splicing.

Mouse calpastatin cDNAs were cloned by the method of RT-PCR using RNA isolated from myoblast C2C12 cells. Nucleotide sequencing of the isolated clones revealed an in-frame ATG codon upstream of the previously assigned translation initiation methionine. Except for the N-terminal segment, the new translatable region (domain XL) was similar to the sequence of bovine calpastatin in which domain XL was first identified. Among the isolated mouse calpastatin cDNA clones, three isoforms (mCS-a, mCS-b, and mCS-c) were identified. In domain L, mCS-b had a deletion of the region corresponding to exon 3 of the human calpastatin gene. RT-PCR analyses of various mouse tissues revealed that mCS-b was the major form and that the content of mCS-a, nondeleted form, was 5-10% in tissues including skeletal muscle, liver, brain, etc. and about 30% in the myoblast C2C12 cells. Unlike human and rat cDNAs, no other deletions were detected in mouse calpastatin domain L. Isolation of the cDNA clone of mCS-c, which lacked regions corresponding to exons 3 and 12, was obtained by chance because its expression level was under the detectable level in the mouse tissues and even in C2C12 cells.     

cDNA cloning of human calpastatin: sequence homology among human, pig, and rabbit calpastatins

cDNA of human calpastatin, an inhibitor protein specific for calpain (EC 3.4.22.17; Ca2(+)-dependent cysteine proteinase) was isolated by screening of a library prepared from human liver mRNA with pig calpastatin cDNA fragment as a probe. The primary structure of human calpastatin was deduced from the nucleotide sequence of the cDNA and compared with that of pig and rabbit calpastatins already reported. Human calpastatin consisted of 673 amino acid residues and had 78% and 77% identity to pig or rabbit calpastatins, respectively. Human calpastatin had a domain structure with four internally repetitive sequences and one N-terminal non-homologous sequence like the other calpastatins. Human calpastatin had two deletions, 22 and 13 residues long in domain L and domain 1, respectively, compared to pig or rabbit calpastatins.     

Analysis of structure-function relationship of pig calpastatin by expression of mutated cDNAs in Escherichia coli

Structure-function relationships in pig calpastatin were investigated. Calpastatin is an endogenous inhibitor protein specifically acting on calpains (Ca2+-dependent cysteine endopeptidases). We recently cloned and sequenced the cDNA for pig heart calpastatin and determined the amino acid sequence of the molecule from the nucleotide sequence. Various deletion mutants in one of the four internally repetitive domains (Domain 3, approximately 140 amino acid residues) were created by in vitro site-directed mutagenesis of a cloned cDNA fragment and expressed in Escherichia coli. Deletion of a conserved region on either the amino-terminal or carboxyl-terminal side caused a drastic loss of inhibitory activity against calpain I (low Ca2+-requiring form) and, to a lesser degree, against calpain II (high Ca2+-requiring form). Inhibitory activities were below the detectable level in mutants deleted further toward the central region. Substitution of two amino acids in the latter region of the wild-type Domain 3 protein caused a drastic loss of activity against both calpains. The creation of lowered affinity inhibitors enabled us to perform a conventional kinetic analysis which showed the mode of inhibition to be competitive. Prediction of the secondary structure of Domain 3 suggests that both the amino- and carboxyl-terminal conserved regions form alpha-helical structures, which are largely located in the interior of the calpastatin molecule, whereas the central region does not form alpha-helix or beta-structure. The central region contains a 12-residue consensus sequence common to Domains 1, 2, and 4, and this portion is predicted to be located on the surface of the calpastatin molecule. These results suggest that the central conserved region of each domain of calpastatin is an area for direct interaction either with the active center of calpain or a region in close proximity, and the rest of the domain is a region stabilizing the functionally important tertiary structure of the domain.     

A novel N-terminal domain directs membrane localization of mouse testis-specific calpastatin

Multiple isoforms of calpastatin have been identified with unique N-terminal regions followed by identical calpain inhibitory domains (II-IV). In many instances the isoforms are cell-type specific, although the precise functional differences among these N-terminal regions are largely unknown. Here we report a germ cell-specific isoform of calpastatin (tCAST) that consists of a novel N-terminal peptide of 40 amino acids (domain T) followed by domains II to IV of somatic calpastatin (sCAST). Domain T is responsible for membrane association of tCAST through a protein modification by myristylation. Mutation of the myristylation site eliminates membrane targeting. Unlike most of the isoforms of calpastatin that are generated through alternative RNA splicing or post-translational proteolysis, the testis-specific isoform is transcribed from an intronic promoter in haploid germ cells of the testis. The intronic promoter directs specific expression of a reporter transgene in developing germ cells of the mouse testis.     

Stabilization of thymic glucocorticoid-receptor complexes by the calcium-activated protease inhibitor, calpastatin

We previously described a heat-stable factor from WEHI-7 mouse thymoma, rat liver, spleen, and human chronic lymphocytic leukemia cells that prevents degradation of glucocorticoid-receptor complexes (GRC) in cytosols from rat thymus and acute non-lymphocytic leukemia cells. We now show that the factor has many properties in common with calpastatin, a naturally occurring inhibitor of a family of neutral calcium-activated proteases called calpains. Liver GRC-stabilizing activity and calpastatin activity, in addition to surviving boiling, co-chromatography on columns of DEAE-cellulose ion exchange or agarose A-0.5M gel filtration matrices, and have identical isoelectric points of 5.1. This factor should be especially useful for studying GRC function in the presence of calcium.     

Determination of the sequence coding for the beta subunit of the human high-affinity IgE receptor.

The cDNA encoding the beta subunit of the human high-affinity IgE receptor was cloned by a combination of various polymerase chain reactions (PCR). A major portion of the beta cDNA was amplified using primers homologous within the sequences of rat and mouse. The 3' unknown sequence was preferentially amplified using the RNA template-specific PCR and the improved two-step PCR. The 5' unknown sequence was specifically amplified by our newly developed PCR walking. Random heptanucleotides tagged with a unique sequence at the 5' end were used as the walking primer. Finally, the entire coding region was amplified and sequenced. The two extracellular loops of the human beta subunit were the least homologous to those of rat and mouse.     

Calpain inhibition decreases the growth rate of mammalian cell colonies

The calpains, a family of calcium-requiring intracellular proteases, are proposed regulators of cell proliferation. However, ablation of the calpain small subunit gene necessary for function of the conventional calpains did not result in decreased rate of proliferative growth of mouse stem cells under routine culture conditions. To address the reasons for this discrepancy, Chinese hamster ovary cell lines were established that overexpress the calpain inhibitor protein, calpastatin, under control of the ecdysone congener, ponasterone A. Overexpression of calpastatin in these cell lines resulted in a decreased growth of isolated colonies adhering to tissue culture plates. However, when cells were plated at higher density, calpastatin overexpression had no influence on proliferative growth rate. Growth of colonies in soft agar was not inhibited by calpastatin overexpression. Cell adhesion, cell de-adhesion, and cell motility all appeared to be normal after calpastatin overexpression. Differential display analysis was initiated to detect possible alteration of gene expression upon calpastatin overexpression. Analysis of approximately 3000 differential display PCR signals resulted in identification of one band that was underexpressed. Northern blot analysis confirmed a decreased amount of approximately 1 kb mRNA in cells overexpressing calpastatin. Sequence analysis identified a putative protein, Csr, containing a region homologous to two ubiquitin transferases and a putative cation channel protein.     

Rat calpastatin has diverged primary sequence from other mammalian calpastatins but retains functionally important sequences

Rat calpastatin was cloned for cDNA and sequenced. It comprises 603 amino acid residues and contains four repeats of approx. 140 amino acid residues, each of which has TIPPxYr sequence responsible for calpain-inhibitory activity. However, rat calpastatin has three deletions of 30-40 amino acid residues in the nonessential regions for the inhibitory activity, and consequently, the deduced molecular size is significantly smaller than those of other mammalian calpastatins.     

Isolation and structure of a rat cytochrome c gene

We screened a Charon 4A-rat genomic library using the cloned iso-1 cytochrome c gene from Saccharomyces cerevisiae as a specific hybridization probe. Eight different recombinant phages homologous to a coding region subfragment of the yeast gene were isolated. Nucleotide sequence analysis of a 0.96-kilobase portion of one of these established the existence of a gene coding for a cytochrome c identical in amino acid sequence with that of mouse. The rat polypeptide chain sequence had not previously been determined. In contrast to the yeast iso-1 and iso-2 cytochrome c genes, neither of which have introns, the rat gene contains a single 105-base pair intervening sequence interrupting glycine codon 56. The overall nucleotide sequence homology between cytochrome c genes of yeast and rat is about 62%, with areas of greater homology coinciding with four regions of functionally constrained amino acid sequences. Two of these regions displayed 85-90% DNA sequence homology, including the longest consecutive homologous stretch of 14 nucleotides, corresponding to amino acids 47-52 of the rat protein. Somewhat less homology was observed in the DNA-specifying amino acids 70-80, which are invariant residues in most known cytochrome c molecules. Thermal dissociation of the yeast probe from the homologous rat DNA was at about 58 degrees C in 0.39 M Na+. These results establish that cytochrome c genes may be isolated by interspecies hybridization between widely divergent organisms.     

Gene sequencing and tissue expression of unknown isoforms of an angiotensin II type 2 receptor interacting protein, ATIP, in the rat

To investigate the expression of the unknown angiotensin II type 2 receptor interacting protein (ATIP) isoforms in the rat we used the known sequences of human and mouse ATIP to design sequencing primers to enable us to sequence rat ATIP3 and ATIP4. Exon 4, which is present in human but not mouse ATIP, was not identified in the coding region of rat ATIP. The expression levels of these genes in a range of rat tissues were examined, and we concluded that there is little similarity in the relative tissue distribution of the various ATIP isoforms in rat and human.     

Heparin-binding neurotrophic factor (HBNF) and MK, members of a new family of homologous, developmentally regulated proteins.

A partial rat cDNA clone coding for a novel neurotrophic factor HBNF was isolated. Nucleotide sequence determination, in combination with the known N-terminal sequence of rat HBNF, allowed deduction of the amino acid sequence of the first 102 residues of mature rat HBNF. HBNF shares high structural homology (55%) with the MK protein (Tomomura et al., J. Biol. Chem. 265, 10765, 1990). Complete alignment of 9 cysteine residues suggests further that the two proteins have similar 3-dimensional structures. HBNF was reported to stimulate neurite outgrowth in neurons and to be expressed in a developmentally regulated manner in the rat brain. MK mRNA was found in retinoid acid-induced teratocarcinoma cells and during early development of the mouse embryo, but no biological activity for MK is yet known. These data suggest that HBNF and MK are members of a novel family of structurally and probably functionally related proteins.     

Sequence variability at the N-terminal leader peptides of rat immunoglobulin light chain precursors

The mRNA molecules coding for immunoglobulin κ chains of different subgroups were isolated from three rat myeloma tumors (IR102, IR487 and IR52). The mRNAs directed the cell-free synthesis of precursor molecules in which leader peptides (24-20 residues long) preceded the N-termini of the mature L-chains. All precursors had N-terminal initiator methionine residue. The complete primary structure of the IR102 leader, and the partial sequences of the IR487 and IR52 leaders were determined. The leader peptides differed extensively in sequence (> 37%), similarly to mouse Ig leader peptides of different subgroups. However, the rat leaders had the invariant residues Gly^?4, Leu^?9, Leu^?10 and Met^?20 (observed in mouse), that presumably are functionally significant and are conserved in evolution (Schechter et al., Fed. Proc. 1979, $\text{38}$, 1839). We predict that in rat genome, as in mouse genome, the DNA coding for the leader and V-region are not contiguous, and that the invariant Gly^?4 codon marks the 3′ end of the leader coding segment.     

Inhibition of calpain expression by E-64d in the rat retina subjected to ischemia/reperfusion injury

To investigate the effect of E-64d, a selective inhibitor of calpain, on the expression of calpain and calpastatin in rat retina subject to ischemia/reperfusion injury (IRI). An animal model of retinal IRI was set up by increasing the intraocular pressure (110 mmHg) of a rat eye for 1 h. The retinal thickness and morphologic changes were detected by histology. The protein expression of m-calpain (a calpain isoform) in the retina was assessed by immunohistochemistry and Western blot assay. The mRNA of m-calpain as well as calpastatin (an endogenous protein inhibitor of calpain) in the retina was assessed by RT-PCR, and the ratio of m-calpain/calpastatin was then calculated. To evaluate the effect of E-64d on the expression of calpain, the drug (5 microl of 100 microM) was injected intravitreously immediately after IRI. There were retinal edematous changes, particularly in the inner plexiform layer after IRI. The protein expression of m-calpain in the retina was increased 24h after IRI, an effect that was inhibited by E-64d (P < 0.05). The mRNA expression of m-calpain and calpastatin was also increased 24 h and 3 h after IRI, respectively. Neither m-calpain nor calpastatin mRNA expression was influenced by E-64d (P > 0.05). The mRNA ratio of m-calpain to calpastatin was increased at the 6 h, 24 h and 72 h after IRI, and only at 24 h the increase of the ratio of m-calpain to calpastatin was inhibited by E-64d (P < 0.05). In the rat retina of IRI, E-64d inhibits the increase of m-calpain protein expression, as well as the mRNA ratio increase of m-calpain to calpastatin. E-64d also inhibited the retinal damage induced by IRI, suggesting a role for E-64d in the protection of the retinal apoptosis induced by IRI.     

Molecular cloning of rat cytolysin

Rat cytolysin is one of the cytolytic factors present in the cytoplasmic granules of rat NK-like cytolytic cells and purified cytolysin exhibits an apparent Mr or 70 kDa. Cytolysis produced by cytolysin occurs in the presence of Ca2+ and is accompanied by the formation of membrane lesions of 160 A diameter. We have isolated a cDNA encoding rat cytolysin from the cDNA library of a rat large granular lymphocyte (LGL) cell line, by hybridization of the rat library with a cDNA probe for mouse perforin. The amino acid sequence deduced from the nucleotide sequence of the isolated cDNA insert indicates that the mature cytolysin protein consist of 534 amino acids with a leader peptide of 20 amino acids. The protein contains two functionally important domains: the first domain is believed to contain the transmembrane channel and the second domain consists of an epidermal growth factor-type "class B" cysteine-rich region. A comparison with mouse perforin indicates that the two genes are very similar (89.9% nucleotide and 84.9% amino acid identity). Northern blot hybridization analysis indicates that cytolysin mRNA is expressed in rat lymphocytes (lymphokine-activated killer cells and LGL cells) and LGL cell lines.     

Evolution of isochores in rodents

The most deviant isochore pattern within mammals was found in rat and mouse; most other mammals possess a different kind of isochore organization called the "general pattern." However, isochore patterns remain largely unknown in rodents other than mouse and rat. To investigate the taxonomic distribution of isochore patterns in rodents, we sequenced the nuclear gene LCAT (lecithin:cholesterol acyltransferase) from 17 rodents species (bringing the total of LCAT sequences in rodent to 19) and compared their GC contents at third codon positions and in introns. We also analyzed an extensive sequence database from rodents other than rat and mouse. All murid LCAT sequences are much poorer in GC than all nonrodent LCAT sequences, and the hamster sequence database shows exactly the same isochore pattern as rat and mouse. Thus, all murids share the same special isochore pattern--GC homogenization. LCAT sequences are GC-poor in hystricomorphs too, but the guinea pig sequence database indicates that large changes in GC content occur without an overall modification of the isochore pattern. This novel mode of isochore evolution is called GC reordering. LCAT sequences also show that the evolution of isochores in sciurids and glirids is nonconservative in comparison with that in nonrodents. Thus, at least two novel patterns of isochore evolution were found. No rodent investigated to date shared the general mammalian pattern.      

Identification of two novel primate-specific genes in DSCR.

We recently helped to complete the sequence of human chromosome 21 at a very high level of accuracy. Using this sequence we identified two novel genes, designated DSCR9 and DSCR10, in the so-called Down Syndrome Critical Region (DSCR) by computational gene prediction and subsequent cDNA cloning. Both DSCR9 and DSCR10 are expressed preferentially in testis and encode functionally unknown proteins with 149 and 87 amino acid residues, respectively. Zoo blot analysis suggested that both genes are exclusive to primate genomes such as chimpanzee, gorilla, orangutan, crab-eating monkey and African green monkey but are not present in other non-primate mammals including mouse, dog, cat, and chicken. Comparative genomic sequence analysis of DSCR9 and DSCR10 with the corresponding mouse syntenic region confirmed the lack of these genes in the mouse. These results strongly suggest that DSCR9 and DSCR10 have emerged as a new class of gene in the primate lineage during evolution.