Stereotype susceptibility in children: effects of identity activation on quantitative performance

A growing body of research indicates that the activation of negative stereotypes can impede cognitive performance in adults, whereas positive stereotypes can facilitate cognitive performance. In two studies, we examined the effects of positive and negative stereotypes on the cognitive performance of children in three age groups: lower elementary school, upper elementary school, and middle school. Very young children in the lower elementary grades (kindergarten-grade 2) and older children in the middle school grades (grades 6-8) showed shifts in performance associated with the activation of positive and negative stereotypes; these shifts were consistent with patterns previously reported for adults. The subtle activation of negative stereotypes significantly impeded performance, whereas the subtle activation of positive stereotypes significantly facilitated performance. Markedly different effects were found for children in the upper elementary grades (grades 3-5). These results suggest that the development of stereotype susceptibility is a critical domain for understanding the connection between stereotypes and individual behavior

Stereotype susceptibility in children: effects of identity activation on quantitative performance

A growing body of research indicates that the activation of negative stereotypes can impede cognitive performance in adults, whereas positive stereotypes can facilitate cognitive performance. In two studies, we examined the effects of positive and negative stereotypes on the cognitive performance of children in three age groups: lower elementary school, upper elementary school, and middle school. Very young children in the lower elementary grades (kindergarten-grade 2) and older children in the middle school grades (grades 6-8) showed shifts in performance associated with the activation of positive and negative stereotypes; these shifts were consistent with patterns previously reported for adults. The subtle activation of negative stereotypes significantly impeded performance, whereas the subtle activation of positive stereotypes significantly facilitated performance. Markedly different effects were found for children in the upper elementary grades (grades 3-5). These results suggest that the development of stereotype susceptibility is a critical domain for understanding the connection between stereotypes and individual behavior

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, betaH crystallin, or recombinant betaB1 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. Proteolysis 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 betaB1, betaA3, and betaB2-crystallins were similar to some of those on bovine and rat crystallins. Proteolysis of alpha- and beta-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.

Characterization and expression of calpain 10. A novel ubiquitous calpain with nuclear localization

Calpains are calcium-dependent intracellular nonlysosomal proteases that are believed to hydrolyze specific substrates important in calcium-regulated signaling pathways. Recently, an atypical member of the calpain family, calpain 10, was described, and genetic variation in this gene was associated with an increased risk of type II diabetes mellitus in humans. In the present report, a polyclonal antibody directed against rat calpain 10 was developed. This antibody was used to monitor the expression of calpain 10 protein in tissues from rats, mice, and humans. Calpain 10 protein was found to be present in all tissues examined by Western blotting including the lens, retina, brain, heart, and skeletal muscle. Although some calpain 10 was detectable in the water-soluble protein fraction of these tissues, it was preferentially found in the water-insoluble fraction. In the lens, immunohistochemistry revealed that calpain 10 was predominately located in the cytoplasm of epithelial and newly differentiating lens fibers at the transition zone. However, calpain 10 was found to be associated with the plasma membrane of differentiated lens fiber cells and the sarcolemma of skeletal muscle. In the lens epithelium-derived cell line, alphaTN4-1, the calpain 10 protein was found in a punctate distribution in the cell nucleus as well as the cytoplasm. After the elevation of intracellular calcium levels with ionomycin, calpain 10 protein levels in the nucleus of alphaTN4-1 cells increased markedly, whereas those in the cytoplasm decreased. In the lens, the elevation of intracellular calcium levels after selenite administration resulted in increased levels of calpain 10 RNA within 1 day and a loss of calpain 10 protein from the lens nucleus coincident with the onset of selenite cataract. In conclusion, calpain 10 seems to be a ubiquitous calpain, the expression level and subcellular distribution of which are dynamically influenced by calcium.

Decomposition of ethylene oxide in the RF plasma environment

A radio frequency (RF) plasma system was used to decompose the ethylene oxide (EO) contained gas in the EO/Ar, and EO/O2/Ar system, respectively. The reactants and final products were analyzed by using FTIR (Fourier transform infrared spectroscopy). The effects of plasma operational parameters, including input power wattage (W), total gas flow rate (Q), feeding concentration (C) of EO and operational pressure for EO decomposition were evaluated. Due to the importance of the high-energy electrons in the RF plasma system, the EO decomposition fraction in plasma reaction increased with decreasing operational pressure, while that of thermal reaction, reported by previous investigations, increased with increasing operational pressure. However, owing to the electrophilic characteristic of oxygen atoms in the EO molecule causing the effect of electron attachment, in conditions of higher EO feeding concentration, the pressure dependence became the same for both plasma- and thermal-reaction. The EO oxidation reaction has also been investigated, the result shows that EO almost completely oxidized at 600-692 K gas temperature. The main products for the EO/Ar system are CO, CH4, C2H6, C2H4, and C2H2, and those for the EO/O2/Ar system are CO2 and H2O.

Influence of specific regions in Lp82 calpain on protein stability, activity, and localization within lens

PURPOSE

To determine the influence of specific regions within Lp82 calpain on protein stability, enzymatic activity, and localization within lens and to test the influence of an Lp82 knockout mouse on normal maturational proteolysis in lens.

METHODS

DNA constructs for Lp82 and Lp82-related proteins were subcloned into the pcDNA 3.1 vector. The constructs contained a substitution of the novel sequence (NS) region from p94 for the AX1 N-terminal region of Lp82 and insertions of the p94 IS1 and IS2 regions into Lp82. Transient expression of these Lp82-related proteins was performed in COS-7 mammalian cells. Immunoblotting and casein zymography were used to measure protein stability and enzymatic activity of the expressed proteins. Homologous recombination was used to knock out p94 gene expression and p94 splice variants such as Lp82 and Lp85 in the lenses of 10-day-old mice. Confocal microscopy revealed the immunohistochemical localization Lp82 and Lp85 within lens.

RESULTS

Insertion of IS1 into Lp82 resulted in a lack of stable protein and loss of enzymatic activity. In contrast, substitution of the NS region for AX1 and insertion of IS2 into Lp82 had no effect on the stability of the Lp82-related proteins. p94 knockout mice at 10 days of age exhibited a total absence of Lp82 activity in the lens but normal activity for the separate mu- and m-calpain gene products. Calcium-induced in vitro proteolysis was retarded in these Lp82/p94 knockout lenses. Lp82 and Lp85 immunostaining was intense throughout the cytoplasm of the cortical and nuclear fibers of newborn mouse lenses with little staining in the epithelium. In contrast, immunostaining for the ubiquitous m-calpain was highest in the epithelium and bow region, with much lower levels in the nucleus. The naturally occurring IS3 insert in Lp85 also promoted the association of Lp85 with the perinuclear region of the nucleated lens fibers.

CONCLUSIONS

The lack of the IS1 region in Lp82 accounts for the stability and abundance of enzymatically active Lp82 protein in rodent lenses. Conversely, the presence of the IS1 region is responsible for the lability of p94 and Rt88 calpains in muscle and retina, respectively. The insert in Lp85 may promote membrane association. A consequence of the specific loss of Lp82 in the lens may be to retard normal maturational proteolysis.

Social dominance orientation and group context in implicit group prejudice

We tested the joint influence of individual difference and situational factors on implicit group prejudice. Participants in Experiments 1 and 2 were briefly shown in-group or out-group pronouns prior to evaluating good or bad trait adjectives. Under standard conditions (Experiment 1), there was no difference between participants with high and low social dominance orientation (SDO), but when the intergroup context was made more salient (Experiment 2), high-SDO participants alone showed implicit group prejudice. Implications for the malleability and consensuality of implicit prejudice are discussed.

Attitudes of clinical faculty about career progress, career success and recognition, and commitment to academic medicine. Results of a survey

OBJECTIVE

To assess attitudes about career progress, resources for career development, and commitment to academic medicine in physician faculty at an academic medical center who spend more than 50% of their time in clinical care.

DESIGN

Faculty survey.

SETTING

Academic medical center and associated Veterans Affairs medical center.

RESULTS

A total of 310 physician faculty responded to the survey. Half of the faculty reported spending 50% or less of their time in clinical care (mean, 31% of time) (group 1) and half reported spending more than 50% of their time in clinical care (mean, 72% of time) (group 2). Group 2 faculty had one third of the time for scholarly activities, reported slower career progress, and were less likely to be at the rank of professor (40% and 16% for groups 1 and 2, respectively; P<.001) or to be tenured (52% and 26%, respectively; P<.001) despite similar age and years on faculty. Group 2 faculty were 50% more likely to report that tenure and promotion criteria were not reviewed at their annual progress report (P =.003) and that they did not understand the criteria (P<.001). Group 2 faculty valued excellence in patient care over scholarship and national visibility. Group 2 faculty reported greater dissatisfaction with academic medicine and less commitment to a career in academic medicine.

CONCLUSIONS

Physician faculty who spend more than 50% of their time in clinical care have less time, mentoring, and resources needed for development of an academic career. These obstacles plus differences in their attitudes about career success and recognition contribute to significant differences in promotion. These factors are associated with greater dissatisfaction with academic medicine and lower commitment to academic careers.

Contribution of calpain Lp82-induced proteolysis to experimental cataractogenesis in mice

PURPOSE

The purpose of the present experiments was to provide a biochemical mechanism for the involvement of lens-specific calpain Lp82 in experimental cataractogenesis in mice.

METHODS

Nuclear cataracts were produced by culturing lenses from 4-week-old mice and rats in calcium ionophore A23187 or by injection of buthionine sulfoximine (BSO) into 7-day-old mice. Casein zymography, sodium dodecyl sulfate-polyacrylamide gel electrophoresis, immunoblot analysis, calcium determinations, in vitro precipitation, and cleavage site analysis by mass spectrometry were performed on lens samples.

RESULTS

Amino acid sequences for Lp82 were found to be highly conserved in lenses from mouse to cow, and expressed Lp82 proteolytic activity was high in the mouse and rat. Lenses from mice were more susceptible to A23187-induced cataract and BSO cataracts than rats. Both types of cataracts showed rapid elevation of calcium, activation of Lp82 and m-calpain, and proteolysis of crystallins. Lp82 caused in vitro precipitation of crystallins; and in contrast to m-calpain, Lp82 truncated only the first five amino acids from the C-terminus of alphaA-crystallin.

CONCLUSIONS

Under pathologic conditions of massive elevation of lens calcium found in young rodent lenses, overactivation of Lp82 and m-calpain leads to rapid truncation of crystallins at both common and unique cleavage sites, precipitation of truncated crystallins, and cataract.

Obstacles to promotion? Values of women faculty about career success and recognition. Committee on the Status of Women and Minorities, Virginia Commonwealth University, Medical College of Virginia Campus

PURPOSE

To assess attitudes of female faculty about career progress, resources for career development, and values related to academic success and recognition.

METHOD

In 1997, the authors surveyed all faculty at Virginia Commonwealth University School of Medicine and its associated Veterans Affairs Medical Center.

RESULTS

Of 918 faculty, 567 (62%) responded to the survey; 33% of the respondents were women. Compared with men, women faculty were less likely to be tenured or at the level of professor, spent more time in clinical activities, had less time for scholarly activity, and reported slower career progress. Women were more likely to report that promotion and tenure criteria had not been reviewed with them. Significant differences were found between female physicians and non-physician faculty; female physicians reported the least time for scholarly activities and poorest understanding of promotion and tenure criteria. When the authors asked faculty how they valued certain indicators of career success, women were less likely to value leadership than were men. Female physicians were less likely to value scholarship and national recognition as indicators of their career success.

CONCLUSION

This survey found important differences in career progress of male and female faculty, with women reporting less time for career development. In addition, there were differences in values related to career success and recognition, which were most pronounced for female physicians. These differences may have an important impact on promotion for women in general and particularly for female physicians.

Lp85 calpain is an enzymatically active rodent-specific isozyme of lens Lp82

PURPOSES

To clone and sequence the cDNA for Lp85 calpain from young rat lens, and to test for Lp85 protein expression and proteolytic activity.

METHODS

RT-PCR and molecular cloning were performed on total RNA from 12 day-old rats. Lp85 protein expression was visualized by immunoblotting using a specific antibody developed to the unique peptide sequence in Lp85. Proteolytic activity was assessed by casein zymography. Transient expression of Lp85 and previously characterized lens-specific calpain Lp82 were separately performed in mammalian COS-7 cells.

RESULTS

The 2410-bp cDNA for rat lens Lp85 encoded a protein of 737 amino acid residues with a calculated molecular weight of 85.0 kDa and a predicted pI of 5.67. The amino acid sequence of Lp85 was identical to Lp82 except for an insert region of 28 amino acids in domain IV of the calcium-binding region. mRNA and protein for Lp85 were present only in rat and mouse lenses and not in other tissues or species. Lp85 protein concentrations were highest in the nuclear region, most concentrated in the insoluble fraction, disappeared with lens maturation, and Lp85 exhibited migration similar to Lp82 on native PAGE gels. Lp85 was enzymatically active when expressed in COS-7 cells.

CONCLUSIONS

Lp85 is a newly classified, lens- and rodent-specific, enzymatically active, member of the AX1 (alternative exon 1) subclass of calpains. In conjunction with Lp82 and m-calpain in lens, Lp85 may be responsible for proteolysis during normal lens development and maturation or during cataract formation in young rodents.

Decreased sensitivity of lens-specific calpain Lp82 to calpastatin inhibitor

The purpose of the present investigation was to test three calpain inhibitors (recombinant calpastatin domain I, E64, and SJA6017) against Lp82 calpain in rat lenses. Lp82 is a lens-specific isoenzyme from the calpain super family of calcium-activated, cysteine proteases (EC 34.22.17). Lp82 and m-calpain proteolytic activities and protein levels were measured by casein zymography and immunoblotting. Activity of endogenous Lp82 against vimentin was also tested by in vitro incubation of rat lens soluble and insoluble fractions with calcium. Most of the Lp82 activity could be inhibited by irreversible inhibitor E64 and reversible inhibitor SJA6017. However, a major finding of the present investigation was that Lp82 in the soluble and insoluble fractions of the lens was less sensitive to inhibition by recombinant domain I from the endogenous tissue inhibitor of ubiquitous calpains, calpastatin, than m-calpain. By using recombinant calpastatin to inhibit endogenous lens m-calpain, we were able to demonstrate the first example of a substrate for Lp82, vimentin. These data suggest that Lp82-induced proteolysis in rodent lenses may occur even in the presence of calpastatin.

Lp82 is the dominant form of calpain in young mouse lens

The purpose of this study was to characterize Lp82 calpain in normal mouse. Lp82 is a lens-specific, calcium-activated isozyme from the calpain super family of cysteine proteases (EC 34.22.17). RT-PCR and molecular cloning were performed on total RNA from 12 day-old mice. Lp82 and m-calpain protein levels and proteolytic activities in lenses were measured by casein zymography, immunoblotting, and ELISA after partial purification by DEAE-HPLC. The 2334-bp cDNA encoding for mouse Lp82 contained a single large open reading frame encoding a protein of 709 amino acid residues with a calculated molecular weight of 82.2 kDa and a predicted pI of 5.8. The amino acid sequence of mouse lens Lp82 was 99% homologous to rat lens Lp82. As in rat, mouse lens Lp82 showed a unique N -terminus and deletion of the IS1 and IS2 regions. In contrast to rat, Lp82 was the dominant calpain in young mouse lens. Lp82 was lens-specific, and the lens nucleus contained the highest specific activity of Lp82 and very little m-calpain. Endogenous Lp82 in lens soluble proteins was activated by addition of calcium and caused limited proteolysis of crystallins even in the presence of large amounts of recombinant domain I from the natural calpain inhibitor calpastatin. Loss of Lp82 protein accompanied aging of mouse lens. Lp82 may be responsible for a major portion of crystallin proteolysis occurring during normal lens development and maturation, or during cataract formation in young mice.

Dynamic complexes of beta2-adrenergic receptors with protein kinases and phosphatases and the role of gravin

Signals mediated by G-protein-linked receptors display agonist-induced attenuation and recovery involving both protein kinases and phosphatases. The role of protein kinases and phosphatases in agonist-induced attenuation and recovery of beta-adrenergic receptors was explored by two complementary approaches, antisense RNA suppression and co-immunoprecipitation of target elements. Protein phosphatases 2A and 2B are associated with the unstimulated receptor, the latter displaying a transient decrease followed by a 2-fold increase in the levels of association at 30 min following challenge with agonist. Protein kinase A displays a robust, agonist-induced association with beta-adrenergic receptors over the same period. Suppression of phosphatases 2A and 2B with antisense RNA or inhibition of their activity with calyculin A and FK506, respectively, blocks resensitization following agonist removal. Recycling of receptors to the plasma membrane following agonist-promoted sequestration is severely impaired by loss of either phosphatase 2B or protein kinase C. In addition, loss of protein kinase C diminishes association of phosphatase 2B with beta-adrenergic receptors. Overlay assays performed with the RII subunit of protein kinase A and co-immunoprecipitations reveal proteins of the A kinase-anchoring proteins (AKAP) family, including AKAP250 also known as gravin, associated with the beta-adrenergic receptor. Suppression of gravin expression disrupts recovery from agonist-induced desensitization, confirming the role of gravin in organization of G-protein-linked signaling complexes. The Ht31 peptide, which blocks AKAP protein-protein interactions, blocks association of beta-adrenergic receptors with protein kinase A. These data are the first to reveal dynamic complexes of beta-adrenergic receptors with protein kinases and phosphatases acting via an anchoring protein, gravin.

Lp82 calpain during rat lens maturation and cataract formation

PURPOSE

To measure changes in levels of Lp82 during maturation and selenite cataract formation in rat lens. Lp82 is a lens-specific, calcium-activated isozyme from the calpain family of cysteine proteases (EC 34.22.17).

METHODS

Competitive RT-PCR was used to assess Lp82 and m-calpain mRNA concentrations. Immunoblotting and ELISA after DEAE chromatography measured Lp82 and m-calpain protein levels. Casein zymography assessed proteolytic activities in regions and whole lenses from maturing rats.

RESULTS

Levels of Lp82 mRNA, protein, and caseinolytic activity decreased more rapidly during maturation of rat lens than for m-calpain. Unexpectedly, the water-insoluble fraction of rat lens contained enzymatically active Lp82. Selenite injection also caused major loss of Lp82 protein during cataract formation.

CONCLUSIONS

Lp82 is a proteolytic enzyme likely functioning in early lens development and maturation. The rapid loss of Lp82 activity during lens maturation is probably caused by three factors: autodegradation associated with the proteolysis of soluble and insoluble proteins occurring in the rat lens nucleus, association of Lp82 with the lens insoluble fraction, and loss of Lp82 mRNA. Lp82 may function early in lens maturation along with m-calpain, which then is predominant in the latter stages of maturation. Proteolysis in selenite cataract is partially caused by over-activation of Lp82.

Serum and insulin induce a Grb2-dependent shift in agonist affinity of beta-adrenergic receptors

Beta-adrenergic receptors transduce catecholamine binding to activation of adenylylcyclase, a response counter-regulated by insulin. Insulin stimulates tyrosine phosphorylation of Tyr 350/354, which abolishes the catecholamine response. Phosphorylation of Try 350/354 creates a Src homology 2 (SH2) domain on the beta2-adrenergic receptor and the binding of adaptor protein Grb2 to this SH2 domain of the beta-adrenergic receptor takes place in an insulin-dependent manner. In membranes from serum-deprived S49 mouse lymphoma cells, GTPgammaS yields the well-known agonist-specific shift in agonist affinity for beta2-adrenergic receptors. The agonist-specific shift is observed in cell membranes either in the absence or in the presence of exogenously added purified Grb2. In membranes for serum-fed cells, in contrast, the addition of Grb2 induces an agonist-specific shift in receptor affinity that mimics addition of GTPgammaS to the membranes. The ability of the Grb2 to induce an agonist-specific shift in the membranes from serum-fed cells was abolished equally effectively either by competition with phosphopeptide harbouring the (p)YVNV motif or by disruption of the SH2 domain of added Grb2. Challenging Chinese hamster ovary cells with insulin (100 nM) for 30 min enabled Grb2 to induce an agonist-specific shift in agonist affinity for beta2-adrenergic receptors, suggestive of uncoupling of the receptors from G proteins. The insulin-dependent Grb2 effect on receptor-G-protein coupling was sensitive to competition by the pYVNY phosphopeptide and to disruption of the SH2 domain of Grb2. These data provide a biochemical link between the ability of insulin to counter-regulate catecholamine stimulation of cyclic AMP accumulation and the phosphorylation of the beta-adrenergic receptor, consequent biding of the adaptor molecule Grb2 and disruption of receptor-G-protein coupling.

Protein for Lp82 calpain is expressed and enzymatically active in young rat lens

mRNA for a newly discovered isoform of calpain, termed Lp82, was recently discovered in young rat lens. The purpose of the present experiments was to test for expression of Lp82 protein. Casein zymography after incubation with calcium was used to detect Lp82 proteolytic activity in regions of lenses from young rats. Lp82 protein was detected by immunoblotting or by ELISA after DEAE-5PW chromatography using a polyclonal antibody generated to a peptide sequence in Lp82. Northern blot analysis assessed expression of Lp82 mRNA. Four results demonstrated expression of Lp82 protein; (1) immunoblot reactivity at the predicted molecular mass of 82 kDa, (2) a unique band of calcium-activated lysis in casein zymograms, (3) partial purification and retention of activity from a single Lp82 peak on DEAE-5PW chromatography, and (4) positive immunoblotting and Northern blot analysis only in lens and not in other rat tissues. These results showed that Lp82 protein is lens-preferred, relatively abundant in young rats (especially nucleus), and enzymatically active. Proteolysis of crystallins in the nucleus of young rat lens during normal maturation and cataract formation, formerly attributed solely to m-calpain, may in fact be due to concerted action of both lens Lp82 and ubiquitous m-calpain.

Age-related changes in human lens crystallins identified by two-dimensional electrophoresis and mass spectrometry

The purpose of this study was to identify the major protein components in adult human lenses and to analyse the specific age-related changes in these proteins using two-dimensional electrophoresis, Edman sequencing, and in conjunction with the data in the accompanying manuscript, mass spectrometry. The majority of changes in the two-dimensional electrophoretic pattern of lens proteins occurred prior to 17 years of age, and included a decrease in proteins migrating to the original positions of beta B1, beta B3, beta A3, gamma C and gamma D, and the appearance of many new species with apparent molecular weights on two-dimensional electrophoretic gels similar to beta B2 and gamma S, but having more acidic pIs. These proteins were identified as deamidated forms of beta B1 and beta A3/A1 missing portions of their N-terminal extensions. With the exception of alpha B, deamidation was detected in all crystallin species. These data indicated that a major fraction of the water-soluble protein of the adult human lens is composed of truncated beta B1 and beta A3/A1 crystallins, and that nearly all human crystallins, including the, beta-crystallins, are susceptible to deamidation. The results also provided the most detailed map to date of the identities of protein species on two-dimensional electrophoresis gels of adult human lenses.

Cleavage of beta crystallins during maturation of bovine lens

PURPOSE

(1) Identify major crystallin proteins in fetal and adult bovine lens, (2) examine the N-termini of beta-crystallins for truncation, and (3) determine if the protease m-calpain (EC 3.4.22.17) is responsible for the cleavage of bovine beta-crystallins during maturation.

METHODS

Crystallins from fetal and adult bovine lenses were analyzed by one and two-dimensional electrophoresis and Edman sequencing of separated proteins and their tryptic fragments. Identical techniques were used to analyze crystallins following their incubation with purified m-calpain.

RESULTS

The identities of the major crystallins and several additional crystallin species missing portions of their N-terminal extensions were identified in the fetal bovine lens. Besides the previously identified form of betaB1 missing 15 residues from its N-terminus, forms of betaA3 >missing 11 and 22 residues were identified. With aging, the betaA3 (-22) species became a major protein in the adult bovine lens, and minor forms of betaB2 and betaB3 missing 8 and 22 residues from their N-termini, respectively, appeared. Purified m-calpain cleaved within the N-terminal extensions of bovine beta-crystallins and removed: 12 or 15 residues from betaB1; 8 residues from betaB2; 5 or 10 residues from betaB3; and 11 or 17 residues from betaA3.

CONCLUSIONS

Based on the cleavage sites in vitro, m-calpain may be partially responsible for cleavage of bovine betaB1, betaB2, and betaA3 during lens maturation. However, the preference of m-calpain to remove 12 residues from betaB1, and 11 and 17 residues from betaA3, suggested that the betaB1 (-15) and betaA3 (-22) species found in vivo were produced by a different protease. This unidentified protease may have a preference for the asparagine-proline-X-proline sequence found in the N-terminal extensions of betaB1 and betaA3.

Changes in calpain II mRNA in young rat lens during maturation and cataract formation

The purpose of these experiments was to describe the expression of mRNA for calpain II proteolytic enzyme (EC 3.4.22.17) during normal maturation of rat lens and in cataract formation. Quantitative RT-PCR indicated that the concentration of mRNA for calpain II in whole lens was 3-24 times higher than in age-matched rat liver, kidney, lung and brain, and it was at least five times higher than in young human lens. mRNA levels for calpain II were highest in the outer regions of young rat lens at 5 x 10(6) copies microgram-1 total RNA. Early-stage experimental cataract caused increased calpain II mRNA, while mature nuclear cataract showed a 64% loss. In contrast, mRNA levels for GAPDH, beta-actin, and lens-specific structural protein beta A4 remained constant during experimental cataract formation. Unlike the lower and constant levels in rat liver, kidney and lung; calpain II mRNA levels in whole rat lens decreased with age. These data help explain the high enzymatic activity of calpain II in young rat lens, susceptibility of young rat lens to a variety of cataracts showing increased calcium and calpain-induced proteolysis, and low calpain enzyme activity in human lens. Since the up-regulation of calpain II mRNA was more dynamic than either the amounts of calpain II enzyme or proteolysis of crystallins in cortex, resulting proteolytic activity against the bulk of lens proteins seems to be regulated by post-translational factors, such as increased calcium. The precise role of the up-regulation of calpain II mRNA is unknown, but we hypothesize that it may be associated with the initial cataractogenic response in the epithelial cells or peripheral cortical fibers.

Sequence analysis of betaA3, betaB3, and betaA4 crystallins completes the identification of the major proteins in young human lens

A combination of Edman sequence analysis and mass spectrometry identified the major proteins of the young human lens as alphaA, alphaB, betaA1, betaA3, betaA4, betaB1, betaB2, betaB3, gammaS, gammaC, and gammaD-crystallins and mapped their positions on two-dimensional electrophoretic gels. The primary structures of human betaA1, betaA3, betaA4, and betaB3-crystallin subunits were predicted by determining cDNA sequences. Mass spectrometric analyses of each intact protein as well as the peptides from trypsin-digested proteins confirmed the predicted amino acid sequences and detected a partially degraded form of betaA3/A1 missing either 22 or 4 amino acid residues from its N-terminal extension. These studies were a prerequisite for future studies to determine how human lens proteins are altered during aging and cataract formation.

Protein kinase C deficiency blocks recovery from agonist-induced desensitization

Protein phosphorylation is central to agonist-induced attenuation of the function of G-protein-linked receptors. Stable expression of RNA antisense to specific protein kinase mRNAs permitted analysis of loss-of-function mutants of A431 human epidermoid carcinoma cells, lacking protein kinase A, protein kinase C, or beta-adrenergic receptor kinase. Deficiency of protein kinase C, but not the others, amplified rather than attenuated agonist-induced desensitization. In wild-type cells, the t1/2 for recovery from desensitization was approximately 25 min following removal of agonist. In the protein kinase C-deficient cells, no resensitization was observed even 60 min after agonist removal. Like protein kinase C-deficiency, inhibition of protein kinase C with bisindolylmaleimide or calphostin C blocked resensitization. Resensitization was suppressed by FK506, an inhibitor of protein phosphatase 2B, mimicking protein kinase C-deficiency, but in a non-additive manner. The data reveal protein kinase C and protein phosphatase 2B to be critical elements of resensitization.

Crystallins from rat lens are especially susceptible to calpain-induced light scattering compared to other species

PURPOSE

To compare the susceptibility of crystallins from various animal species to formation of light scattering elements after proteolysis by calpain II enzyme (EC 3.4.22.17).

METHODS

Lens, total soluble proteins from: 12-day and 4-week old rat, fetal and adult bovine, 16-day embryonic and 10-week chicken, and young human cortex and nucleus were proteolyzed by either endogenous lens calpain or addition of purified calpain II for 24 h followed by incubation for up to 11 days. Absorbance of light at 405 nm estimated light scattering by crystallins; SDS-PAGE and 2D-electrophoresis assessed proteolysis on the crystallins.

RESULTS

Most rapid light scattering occurred with total soluble proteins from young rat lens, either after adding purified calpain or by activating endogenous lens calpain with calcium. (Only rat lens showed activation of endogenous calpain II.) beta-crystallin polypeptides from rat, bovine, human, and to a more limited extent, chick lens were partially proteolyzed by addition of purified calpain II. In spite of this proteolysis, total soluble proteins from chicken, bovine, and human lenses showed no obvious light scattering by action of calpain. Crystallins from older rat lens showed approximately 50% of the light scattering displayed by crystallins from younger rats after 3 days, but only when purified calpain was added.

CONCLUSIONS

Our results indicate an unusually high susceptibility of crystallin polypeptides from young rat lens to formation of light scattering elements after limited proteolysis. Thus, young rat lens provides a unique opportunity to investigate how properties of crystallins influence the development of light scattering found in cataract.