Crystallin gene expression in the process of lentoidogenesis in cultures of chicken lens epithelial cells

Evolutionary diversity of vertebrate small heat shock proteins

All vertebrates express multiple small heat shock proteins (sHsps), which are important components of the cellular chaperoning machinery and display a spectacular diversity of functions. This ranges from remodeling the cytoskeleton and inhibiting apoptosis to serving as structural proteins in eye lens and sperm tail. Most information is available for the 10 known mammalian sHsps, formally named HspB1-B10. Only three of them (Hsp27/B1, alphaA-crystallin/B4, alphaB-crystallin/B5) have been reported from nonmammalian vertebrates, while an apparent paralog, Hsp30/B11, is found in frogs and teleost fish. To reconstruct the evolutionary diversification of the sHsps in vertebrates, we searched for additional sHsps in genome, protein, and EST databases and sequenced some avian and amphibian sHsps (HspB2, Hsp30/B11). The urochordate Ciona intestinalis was included in the search, as the outgroup of vertebrates. Orthologs of seven mammalian sHsps were now found in other vertebrate classes. Two novel sHsps, named HspB11 and HspB12, were recognized in birds, and four novel sHsps, named HspB12-B15, in teleost fish. Secondary structure predictions of orthologous sHsps from different vertebrate classes indicate conservation of the beta-sandwich structure of the functionally important C-terminal "alpha-crystallin domain," while the N-terminal domains generally have alpha-helical structures, despite their pronounced sequence variation. The constructed chordate sHsp tree is supported by shared introns, indels, and diagnostic sequences. The tree distinguishes putative orthologous and paralogous relationships, which will facilitate the functional and structural comparison of the various vertebrate sHsps. The 15 recognized paralogous vertebrate sHsps reflect the period of extensive gene duplications early in vertebrate evolution. Eleven of these sHsps are grouped in a clade that might be specific for chordates. It is inferred that at least 13 intron insertions have occurred during the evolution of chordate sHsp genes, while a single ancient intron is maintained in some lineages, in line with the general trend of massive intron gain before or during early vertebrate radiation. Interesting is the occurrence of several head-to-head located pairs of chordate sHsp genes.

Molecular cloning, developmental expression, and hormonal regulation of zebrafish (Danio rerio) beta crystallin B1, a member of the superfamily of beta crystallin proteins

The cDNA sequence of beta crystallin B1 was determined from zebrafish (Danio rerio) and compared to the corresponding genes of bovine, rat, chicken, human, and Xenopus. Multispecies comparison of superfamily diversity demonstrated beta crystallin B1 homology between zebrafish, bovine, chicken, and rat, but large distances to beta crystallin B2 and B3. Zebrafish cDNA has a size of 943 nucleotides and encodes a polypeptide of 233 amino acids. Zebrafish beta crystallin B1 shares 71.30, 75.86, and 71.00% similarities with bovine, chicken, and rat beta crystallin B1, respectively. Northern blot analysis revealed a single 0.9-kb beta crystallin B1 transcript which was expressed and progressively increased in the first 20 h of zebrafish embryogenesis. Whole-mount in situ hybridization revealed that the beta crystallin B1 transcript was only specifically expressed in the lens region of the eye. A starvation experiment revealed no variation in mRNA levels after 14 and 21 days. An experiment in which hormone was injected showed that the beta crystallin B1 transcript first increased 24 h after the injection of insulin-like growth factor I, insulin-like growth factor II, or growth hormone, then decreased 48 h after injection. The beta crystallin B1 transcript continuously increased after insulin was injected. Taken together, our results identify the early specific expression of beta crystallin B1 within the lens. Despite small differences, these results indicate that both the structure of the beta crystallin B1 protein and its involvement with regulation by growth factors appear to have been remarkably conserved.

Cloning, sequencing and differential expression of alphaB-crystallin in the zebrafish, Danio rerio

Here we report the cloning and expression of alphaB-crystallin from the zebrafish. 5'- and 3'-RACE was used to isolate a 900-bp transcript that contained insertions and deletions that differentiate it from both alphaA-crystallin and HSP-27. The deduced amino acid sequence of zebrafish alphaB-crystallin revealed that it lacked four residues in the C-terminus implicated in protein-protein interactions in other vertebrate species. In addition, the sequence contained two substitutions at sites implicated in phosphorylation in other vertebrate species. Northern analysis and semi-quantitative RT-PCR indicate that zebrafish alphaB-crystallin is expressed at extremely low levels outside of the lens.

Characterization, cloning, and expression of porcine alpha B crystallin

alpha-Crystallin is a major lens protein present in the lenses of all vertebrate species. Recent studies have revealed that bovine alpha-crystallins possess genuine chaperone activity similar to small heat-shock proteins. In order to compare this chaperone-like structural protein from the eye lenses of different mammalian species, we have cloned and expressed one of the main alpha-crystallin subunits, i.e., alpha B crystallin, from the porcine lenses in order to facilitate the structure-function evaluation and comparison of this chaperonin protein. cDNA encoding alpha B subunit chain was obtained using a new "Marathon cDNA amplification" protocol of Polymerase Chain Reaction (PCR). PCR-amplified product corresponding to alpha B subunit was then ligated into pGEM-T plasmid and prepared for nucleotide sequencing by the dideoxy-nucleotide chain-termination method. Sequencing several positive clones containing DNA inserts coding for alpha B-crystallin subunit constructed only one complete full-length reading frame of 525 base pairs similar to human and bovine alpha B subunits, covering a deduced protein sequence of 175 amino acids including the universal translation-initiating methionine. The porcine alpha B crystallin shows only 3 and 7 residues difference to bovine and human alpha B crystallins respectively, revealing the close relatedness among mammalian eye lens proteins. The sequence differences between porcine and sub-mammalian species such as chicken and bullfrog are much greater, especially at the N- and C-terminal regions of these alpha B crystallins. Expression of alpha B subunit chain in E. coli vector generated a polypeptide which can cross-react with the antiserum against the native and purified alpha B subunit from the native porcine lenses albeit with a much lower activity.

Nuclear degeneration in the developing lens and its regulation by TNFalpha

DNA fragmentation in lens fibre cell nuclei undergoing programmed degeneration was identified by terminal deoxynucleotidyl transferase (TdT)-mediated biotin-dUTP nick end labelling (TUNEL). Lens epithelial cells in culture were induced to differentiate into lens fibre-like clumps of cells (lentoids) by insulin and it was shown that the TUNEL method was also an effective means of labelling degenerating nuclei in lentoid cells in lens epithelial cell cultures. Using immuno-fluorescence and confocal microscopy, it was shown that TNFalpha and TNF receptor (TNFR1, and TNFR2) immunoreactivity was present in sections of chick embryo lenses. TNFalpha immunoreactivity was associated with the lens epithelium and lens fibres. TNFR1 immunoreactivity was present in lens epithelial cells, cortical lens fibres, and lens fibre cell nuclei, while TNFR2 immunoreactivity had a similar distribution to that of TNFR1, but was not associated with nuclei. Similar patterns of TNFalpha, TNFR1, and TNFR2 immunoreactivity were observed in lens epithelial cell cultures. When added to lens epithelial cell cultures, TNFalpha, at concentrations of 50 to 100 ng ml-1, and agonistic antibodies to both TNFR1 and TNFR2 significantly (P<0.05) enhanced the number of degenerating (TUNEL-positive) nuclei. On the other hand, a neutralising antibody to TNFalpha significantly (P<0. 05) reduced the number of TUNEL-positive nuclei. These results demonstrate that TUNEL is an effective means of labelling degenerating lens fibre nuclei during lens fibre and lentoid differentiation, and suggest a potential role for TNFalpha-like factors and their receptors in the degeneration of lens fibre cell nuclei during lens differentiation. We further suggest that the nuclear degeneration of lens fibre cells is analogous to the nuclear events that occur during apoptosis, and that in lens cells the nuclear degeneration is uncoupled from the plasma membrane events of apoptosis that normally lead to cell death.

Evolutionary relationships of the metazoan beta gamma-crystallins, including that from the marine sponge Geodia cydonium

beta gamma-crystallins are one major component of vertebrate lenses. Here the isolation and characterization of a cDNA, coding for the first beta gamma-crystallin molecule from an invertebrate species, the marine sponge Geodia cydonium, is described. The size of the transcript as determined by Northern blotting was 0.7 kb in length. The deduced amino acid sequence consists of 163 aa residues and comprises four repeated motifs which compose the two domains of the beta gamma-crystallin. Motif 3 contains the characteristic beta gamma-crystallin 'Greek key' motif signature, while in each of the three other repeats, one aa residue is replaced by an aa with the same physico-chemical property. The sponge peptide shows striking similarities to vertebrate beta gamma-crystallins. Analysis by neighbour joining of the sponge motifs with the two motifs present in spherulin 3a of Physarum polycephalum shows that motif 4 of the sponge beta gamma-crystallin was added as the last single sequence to the tree. The data support the view that the beta gamma-crystallin superfamily, present in eukaryotes, evolved from a common ancestor including also the sponge beta gamma-crystallin.

alpha-Crystallin sequences support a galliform/anseriform clade

An unresolved issue in higher avian systematics is the position of the fowl-like and the duck-like birds, Galliformes and Anseriformes, respectively. Most studies place these orders at the base of the neognath radiation. While DNA hybridization data support a sister-group relationship of Galliformes and Anseriformes, macromolecular sequence analyses have not yet been able to provide a clear-cut answer. In this study, we present nucleotide sequences coding for the eye lens proteins alpha A- and alpha B-crystallin of a palaeognath, a galliform, an anseriform, and two other neognathous birds. Phylogenetic analyses of this data set clearly support a galliform/anseriform clade, to the exclusion of other neognaths.

Alternative transcriptional initiation and alternative use of polyadenylation signals in the alphaB-crystallin gene expressed in different chicken tissues

Overexpression of alphaB-crystallin is associated with numerous neurodegenerative diseases and abnormal cell growth patterns. To study the mechanisms involved in the control of the transcriptional activity of the gene we have characterized its expression in different chicken tissues. The sequence of the alphaB-crystallin cDNA isolated from chicken testis and 6-day-old chick embryo is highly homologous to the duck alphaB-crystallin cDNA and differs from the previously reported chicken lens alphaB-crystallin cDNA in the 5' untranslated region (5'-UTR) and in one amino acid of the coding sequence. Four forms of the alphaB-crystallin cDNA detected in chicken testes arise from the use of alternative transcription initiation sites and alternative polyadenylation signals. The two principal hybridizing bands found in lens and embryonic tissues possess a short 5'-UTR and differ in the length of the 3'-UTR. Forms with longer 5'-UTR are present in testis, muscle, and heart. The use of different start sites and polyadenylation signals could modulate transcriptional activity and the stability of the messages. The expression of the alphaB-crystallin gene decreases from day 6 to day 8 of chick embryogenesis, in parallel with the expression of the polyubiquitin gene UbII.

Cellular and molecular features of lens differentiation: a review of recent advances

In this paper, the more recent literature pertaining to differentiation in the developing vertebrate lens is reviewed in relation to previous work. The literature reviewed reveals that the developing lens has been, and will continue to be, a useful model system for the examination of many fundamental processes occurring during embryonic development. Areas of lens development reviewed here include: the induction and early embryology of the lens; lens cell culture techniques; the role of growth factors and cytokines; the involvement of gap junctions in lens cell-cell communication; the role of cell adhesion molecules, integrins, and the extracellular matrix; the role of the cytoskeleton; the processes of programmed cell death (apoptosis) and lens fibre cell denucleation; the involvement of Pax and Homeobox genes; and crystallin gene regulation. Finally, some speculation is provided as to possible directions for further research in lens development.

The duck gene for alpha B-crystallin shows evolutionary conservation of discrete promoter elements but lacks heat and osmotic shock response

The gene for alpha Beta-crystallin from a bird (the domestic duck, Anas platyrhynchos) has been cloned and sequenced to allow comparison with its mammalian homologues. The duck gene has the same general structure as those of humans and rodents although, unlike those of mammals, the duck gene has two polyadenylation signals at the 3' end. The most interesting comparisons are in the 5'flanking promoter regions. In contrast to the broad conservation of promoter sequence among mammals, only two significant blocks and a few smaller elements have been conserved during evolution in the more distantly related avian gene. Block 1 (-350/-308) corresponds to alpha BE-2, a functional element defined in the mouse gene. Further downstream, block 2 (-98/-65) shows 27/33 identity among all three species but does not correspond to any previously defined element. Other regions are less well-conserved. In particular, putative heat-shock response elements of the mammalian alpha B-crystallin genes are absent from the duck gene. In contrast to the heat and osmotic stress-inducibility of mouse alpha B-crystallin in NIH 3T3 cells, duck alpha B-crystallin showed no inducibility in duck cells in culture. Thus, although high expression in lens is common to alpha B-crystallin genes in birds and mammals, other modes of expression appear to be taxon-specific.

alpha-Crystallin polypeptides in developing chicken lens cells

We provide evidence that the different cells that form the chicken lens have isoelectric variants of alpha-crystallins at early and late developmental stages. We separated the alpha A and alpha B-crystallin subclasses by sodium dodecylsulphate polyacrylamide gel electrophoresis and then further resolved each by isoelectric focusing and assays with specific anti alpha-crystallin antibodies. We found that the annular pad, cortical and nuclear fibers, as well as the epithelial cells, contain alpha A and alpha B native chains and their respective isoelectric variants. These results on adult and embryonic lenses obtained a short time after the onset of alpha-crystallin expression suggest that lens cells, having different phenotypes, are able to produce post-translational modifications of the alpha A and alpha B chains as a part of their developmental program.

The expanding small heat-shock protein family, and structure predictions of the conserved "alpha-crystallin domain"

The ever-increasing number of proteins identified as belonging to the family of small heat-shock proteins (shsps) and alpha-crystallins enables us to reassess the phylogeny of this ubiquitous protein family. While the prokaryotic and fungal representatives are not properly resolved, most of the plant and animal shsps and related proteins are clearly grouped in distinct clades, reflecting a history of repeated gene duplications. The members of the shsp family are characterized by the presence of a conserved homologous "alpha-crystallin domain," which sometimes is present in duplicate. Predictions are made of secondary structure and solvent accessibility of this domain, which together with hydropathy profiles and intron positions support the presence of two similar hydrophobic beta-sheet-rich motifs, connected by a hydrophilic alpha-helical region. Together with an overview of the newly characterized members of the shsp family, these data help to define this family as being involved as stable structural proteins and as molecular chaperones during normal development and induced under pathological and stressful conditions.

Expression of alpha B-crystallin in Alzheimer's disease

alpha B-crystallin is a member of the small heat-shock protein family. Under pathological conditions, the expression of alpha B-crystallin increases in proliferating astrocytes, which suggests that this protein, in addition to glial fibrillary acidic protein (GFAP), can be a marker for gliosis in neurodegenerative diseases. Immunoblotting and immunohistochemical methods were used for the detection of alpha B-crystallin in the brains of Alzheimer's disease (AD) patients and nondemented controls. An increase in alpha B-crystallin expression was found in the brains of AD patients. Immunoreaction was present in reactive astrocytes, microglia, and oligodendrocytes, indicating that all types of glia respond to the stress associated with AD pathology. Colocalization of GFAP and alpha B-crystallin was found in fibrous astrocytes. However, the intensity and range of alpha B-crystallin expression appeared to be limited as compared with the large increase in the number of GFAP-positive astrocytes. This indicates that expression of alpha B-crystallin is not a marker for gliosis in AD. Immunoreactivity to alpha B-crystallin in both astrocytes and microglia was found mainly restricted to areas with senile plaques and neurofibrillary tangles, suggesting the association of alpha B-crystallin with amyloid deposition in AD.

Genetic characterization of the multipotent dedifferentiated state of pigmented epithelial cells in vitro

Retinal pigmented epithelial cells (PECs) of chicken embryos extensively and almost synchronously transdifferentiate into lens cells in medium containing phenylthiourea and testicular hyaluronidase, passing through the bipotent dedifferentiated state. We have isolated genes that are expressed specifically by either pigment or lens cells and analyzed their expression in the transdifferentiation process. The expression of some proto-oncogenes was also studied. In the dedifferentiation process, expression of the c-myc gene was enhanced and the transcription of PEC-specific genes (MMP115, pP344) was completely repressed. However, transcription of lens-specific genes (alpha-, beta- and delta-crystallins genes) remained silent in dedifferentiated pigment cells. Activation of len- or PEC-specific genes occurred only in conditions permissive for lens or PEC differentiation, respectively. These results indicated that lens transdifferentiation from PECs proceeds through a multipotent (or at least bipotent) intermediate cell state in which the c-myc gene is activated, but neither PEC- nor lens-specific genes are expressed.