Chiho Fukiage

SJA6017, a newly synthesized peptide aldehyde inhibitor of calpain: Amelioration of cataract in cultured rat lenses

The purposes of this experiment were to: (1), characterize the peptide aldehyde SJA6017, N-(4-fluorophenylsulfonyl)-L-valyl-L-leucinal, a newly synthesized inhibitor of calpain, and (2) test the effect of SJA6017 in preventing calcium ionophore-induced cataract in cultured rat lenses. In vitro, SJA6017 strongly inhibited purified m-calpain from porcine kidney. Casein zymography confirmed that SJA6017 reversibly bound to the active site of m-calpain. SJA6017 was also confirmed to be a cell-permeable inhibitor in Molt-4 cells. In cultured lenses, SJA6017 reduced nuclear opacity and proteolysis of crystallins and alpha-spectrin caused by calcium ionophore A23187. These results suggested that SJA6017 is a reversible and cell-permeable calpain inhibitor which may possess great efficacy against calcium-induced models of cataract.

Mass measurements of C-terminally truncated alpha-crystallins from two-dimensional gels identify Lp82 as a major endopeptidase in rat lens.

Molecular chaperone activity of lens α-crystallins is reduced by loss of the C terminus. The purpose of this experiment was to 1) determine the cleavage sites produced in vitro by ubiquitous m-calpain and lens-specific Lp82 on α-crystallins, 2) identify α-crystallin cleavage sites produced in vivo during maturation and cataract formation in rat lens, and 3) estimate the relative activities of Lp82 and m-calpain by appearance of protease-specific cleavage products in vivo. Total soluble protein from young rat lens was incubated with recombinant m-calpain or Lp82 and 2 mm Ca2+. Resulting fragmented α-crystallins were separated by two-dimensional gel electrophoresis. Eluted α-crystallin spots were analyzed by mass spectrometry. Cleavage sites on insoluble α-crystallins were determined similarly in mature rat lens nucleus and in cataractous rat lens nucleus induced by selenite. In vitro proteolysis of αA-crystallin by Lp82 and m-calpain produced unique cleavage sites by removing 5 and 11 residues, respectively, from the C terminus. In vivo, the protease-specific truncations removing 5 and 11 residues from αA were both found in maturing lens, whereas only the truncation removing 5 residues was found in cataractous lens. Other truncation sites, common to both calpain isoforms, resulted from the removal of 8, 10, 16, 17, and 22 residues from the C terminus of αA. Using uniquely truncated αA-crystallins as in vivo markers, Lp82 and m-calpain were both found to be active during normal maturation of rat lens, whereas Lp82 seemed especially active during selenite cataract formation. These C-terminal truncations decrease chaperone activity of α-crystallins, possibly leading to the observed increases in insoluble proteins during aging and cataract. The methodology that allowed accurate mass measurements of proteins eluted from 2D gels should be useful to examine rapidly other post-translational modifications.

Characterization and Regulation of Lens-specific Calpain Lp82

Eye tissues contain splice variants of muscle-preferred p94 (calpain 3), such as lens-specific Lp82 and Lp85, retina-specific Rt88, and cornea-specific Cn94. The purpose of the present experiment was to analyze the activation and regulation of the best characterized p94 splice variant, Lp82. Recombinant rat Lp82 (rLp82) was expressed using the baculovirus system, purified with Ni-NTA affinity and DEAE-ion exchange chromatographies, and characterized by SDS-PAGE, casein zymography, and immunoblotting. After incubation with calcium, rLp82 autolyzed into two major fragments at ∼60 and 22 kDa. Sequencing of the autolytic fragments showed loss of three amino acids from the N terminus and cleavage near the IS2 region. Also, Lp82 and calpain 2 were found to hydrolyze each other. Calpastatin inhibited calpain 2 activity, but not Lp82. Homology modeling suggested that the lack of inhibition of Lp82 by calpastatin was due to molecular clashes at the unique AX1 region of Lp82. Lp82 also hydrolyzed calpastatin. These results suggested that Lp82 might regulate other calpain activities and cause hydrolysis of substrates such as crystallins during lens cataract formation.

Identification and characterization of a retina-specific calpain (Rt88) from rat

PURPOSE To identify and characterize a newly discovered calpain termed Rt88 from rat retina. METHODS Rt88 in retina under normal physiological conditions was characterized in Sprague-Dawley rats of various ages by competitive RT-PCR, Northern blot analysis, cDNA cloning and sequencing. Recombinant Rt88 was expressed in the baculovirus system and characterized by casein zymography and immunoblotting. RESULTS Rt88 was sequenced and found to be similar to muscle calpain p94 except for three differences. A different exon 1 (as in lens Lp82 calpain) was present, and exons 15 and 16 in the unique IS2 region of muscle p94 were deleted. Of eleven tissues studied, mRNA for Rt88 was found only in retina where Rt88 increased with maturation and then remained constant. Casein zymography showed that rRt88 was proteolytically active after activation by calcium, but intact rRt88 was rapidly broken due to the presence of the IS1 region in domain II. CONCLUSIONS Rt88 is a retina-specific, calcium activated protease from the calpain superfamily (EC 3.4.22.17) of cysteine proteases. Rt88 is a recently identified member of the AX1 subfamily of calpains showing alternative exon 1 usage. So far, all AX1 subfamily members are from eye. Rt88 may perform specific proteolytic functions during development, normal turnover, or pathological degeneration of retinal proteins.

Calpain inhibitor, SJA6017, reduces the rate of formation of selenite cataract in rats

Purposes. 1) To measure the amount of calpain inhibitor SJA6017 taken up by lenses of young rats after administration; and 2) To test efficacy of SJA6017 against selenite cataract in regard to amelioration of proteolysis of lens protein and prevention of lens nuclear opacity. Methods. Selenite nuclear cataracts were produced by subcutaneous injection of an overdose of sodium selenite to 16-day-old rats. SJA6017 was administered daily using intraperitoneal injections at 100 mg/kg body weight/day for 4 days. Lenses were observed and photographed by slit lamp biomicroscopy, and scored into one of three stages. Enucleated lenses were also scored into one of four stages and lens opacities in the nuclear region were quantified by image analysis. Proteolysis of crystallins was detected by SDS-PAGE. The amount of SJA6017 taken up by the lens was detected with a column switching HPLC system. Results. Nuclear cataracts were visible in 31% of the animals receiving only selenite, while the frequency of nuclear cataract in the Se+SJA6017 group was reduced to only 16%. This effect of SJA6017 was confirmed by densitometric analysis as a reduction in the density of the nucleus. Similar proteolytic changes of crystallins occurred at all stages of selenite cataract formation. The amount of SJA6017 in the lens was detected at the level of 0.03 µM. Conclusions. Systemic SJA6017 was taken up by the lens, and SJA6017 ameliorated in vivo selenite cataract formation. These studies are important because they partially validate the biochemical rationale for developing non-surgical, drug treatments for cataract prevention in man.

Proteolysis by m-calpain enhances in vitro light scattering by crystallins from human and bovine lenses

Purpose. To determine if proteolysis by the calcium-activated protease m-calpain (EC 34.22.17) enhances in vitro light scattering in crystallins from human and bovine lenses. Methods. Total soluble proteins from bovine, human, and rodent lenses, ßH crystallin, or recombinant ßB1 polypeptide were pre-incubated in the presence or absence of activated m-calpain. Heat-induced light scattering was assayed by measuring changes in optical density at 405 nm. Pro-teolysis and cleavage sites were detected by SDS-PAGE, two dimensional electrophoresis, and N-terminal Edman sequencing. Results. The in vitro cleavage sites produced by m-calpain on the N-termini of human ßB1, ßA3, and ßB2-crystallins were similar to some of those on bovine and rat crystallins. Proteolysis of a- and ß-crystallins was associated with enhanced, heat-induced light scattering by human and bovine lens proteins. Conclusions. Proteolysis may be a contributing factor in the insolubilization of crystallins occurring during normal maturation of lens or during cataract formation in such species as man and cows.

Different expression patterns for ubiquitous calpains and Capn3 splice variants in monkey ocular tissues.

The purpose of the present investigation was to compare the expression of ubiquitous and tissue-specific calpains in ocular tissues from the Macaca fascicularis monkey. Calpain isoforms in retina and corneal epithelium from adult M. fascicularis monkeys were characterized by RT-PCR, cDNA cloning and sequencing. Calpain isoform activities in ocular tissues were investigated by fractionation on DEAE-HPLC, immunoblotting, and casein zymography. Capn3 splice variants in the ocular tissues from rat, rabbit and monkey were compared after RT-PCR. RT-PCR analysis revealed that numerous splice variants of Capn3 were expressed in the epithelium from monkey cornea. The variants contained deletions or insertions in or around the IS1, IS2, and NS regions. The cDNAs for Capn3 variants were highly conserved, yet the expression patterns of the Capn3 isoforms were widely different among the mammalian species. In contrast, the expression patterns of ubiquitous calpains in ocular tissues were conserved among the mammalian species, and similarities between monkey and human cDNAs for Capn1 (mu-calpain) and Capn2 (m-calpain) were 98 and 99%, respectively. These results suggested that differences in expression patterns of Capn3 variants might be related to the function of each variant in a particular tissue or species.

Involvement of calpain in hypoxia-induced damage in rat retina in vitro.

Our previous study suggested that calpain isoforms played an important role in retinal ganglion cell death induced by ischemia-reperfusion in rats [Curr. Eye Res. 21 (2000) 571]. The purpose of the present study was to further establish the direct involvement of calpain in hypoxia-induced damage by administering calpain inhibitor SJA6017 to oxygen-starved, cultured retinas. Retinas were incubated in RPMI medium with glucose and 95% O2/5% CO2 to supply sufficient oxygen for retinal cell survival. To induce a hypoxic condition, retinas were incubated with 95% N2/5% CO2. Leakage of LDH in the medium was measured to assess retinal cell damage. Activation of calpain and proteolysis of calpain substrate alpha-spectrin were analyzed by casein zymography and immunoblotting. Large amounts of LDH leaked into the medium from retinas under hypoxic conditions for 12 h, and SJA6017 significantly reduced LDH leakage. Caseinolytic activity of mu- and m-calpains decreased with hypoxia for 5 and 12 h, suggesting calpain activation followed by autolytic degradation. SJA6017 partially inhibited decreased calpain activities. Proteolysis of 230 kDa alpha-spectrin to 150 and 145 kDa breakdown products was observed in retinas with hypoxia. SJA6017 completely inhibited production of the 145 kDa breakdown product and partially inhibited production of the 150 kDa breakdown product. These results confirm the direct involvement of calpains in retinal cell damage induced by hypoxia in vitro.

Differential influence of proteolysis by calpain 2 and Lp82 on in vitro precipitation of mouse lens crystallins

The purpose of the present study was to compare the susceptibility of crystallins proteolyzed by ubiquitous calpain 2 and by lens-specific calpain Lp82 to insolubilization. To test this, transgenic (TG) mice expressing a calpain 2, in which the active site cysteine 105 was mutated to alanine, were produced. Expression of mutated calpain 2 was driven in lens by coupling the mutated gene to the betaB1-crystallin promoter. Light scattering was measured in solutions of lens proteins after activation of endogenous calpain 2 and/or Lp82. Mass spectrometric analysis was performed to determine the cleavage sites and the calpain responsible for insolubilization of crystallins. Lens proteins from TG mice incubated in vitro with calcium showed higher light scattering compared to proteins from wild type (WT) mice. alphaA-crystallin from TG mice was proteolyzed by Lp82. In contrast, alphaA-crystallin in lenses from WT mice were proteolyzed by both calpain 2 and Lp82. These results suggested that Lp82-induced proteolysis of crystallins caused increased susceptibility of truncated crystallins to in vitro precipitation. Since Lp82 is highest in young animals, Lp82-induced proteolysis and precipitation may be one of the factors responsible for the cataract formation in young rodents.

Serum antibodies against βH-crystallins in the American Cocker Spaniel

Objective To detect antibodies for lens βH-crystallins in the serum from the American Cocker Spaniel (ACS) presenting with and without cataracts and with and without uveitis. Animal Studied Seventy-three American Cocker Spaniels and six normal Beagles. Procedures Sera were collected from 73 ACSs, including those with normal lenses and those with cataracts, or uveitis. Fractionated, normal Beagle lens βH-crystallins were separated by one- or two-dimensional electrophoresis. The separated lens βH-crystallins were used on immunoblots as sentinel substrates against which the ACS sera were tested for the presence of antibodies against βH-crystallins. Results Sera from approximately two-thirds of study animals contained antibodies to some βH-crystallin polypeptides, but reactivity varied among patients. Contrary to some hypotheses, serum antibodies to groups of βH-crystallins did not relate to the stages of cataract. However, detailed analysis by two-dimensional immunoblotting and mass spectrometry showed that three spots originating from βA1-crystallin were detected only in sera from cataract patients. Conclusion Serum antibodies to βA1-crystallin may be associated with the development of cataract.