Expression of tenascin-C splice variants in normal and bullous keratopathy human corneas

PURPOSE

To characterize the expression patterns of tenascin-C (TN-C) splice variants in normal corneas and in those affected by pseudophakic-aphakic bullous keratopathy (PBK-ABK).

METHODS

Alternatively spliced variants of TN-C mRNA from normal and age-matched human corneas with PBK-ABK were analyzed by semiquantitative reverse transcription-polymerase chain reaction (RT-PCR) and Southern blot hybridization, using beta2-microglobulin as a housekeeping gene to normalize the samples. Normal and PBK-ABK corneas were studied by immunofluorescence and western blot analysis with antibodies to specific fibronectin type III-like (FN-III) repeats of TN-C.

RESULTS

Tenascin-C mRNA expression was detected in epithelial, stromal, and endothelial cells of normal and PBK-ABK central corneas, although the protein was seen only in diseased corneas. Assessed by RT-PCR, PBK-ABK corneas expressed approximately three times more total TN-C mRNA than did normal corneas. Four major TN-C mRNA variants (with no FN-III insertional repeats or with retained insertional repeats D, A1, or A1+D) and three minor variants (with retained repeats A1+A2, A1+A2+D, or A1+A2+B+D) were much more abundant in PBK-ABK than in normal corneas. Repeat A1 was more abundant in PBK-ABK TN-C protein than repeats A2, A3, B, or D. Major TN-C variants in PBK-ABK corneas were in the range of 190 kDa to 240 kDa.

CONCLUSIONS

Expression of TN-C mRNA and protein is higher in PBK-ABK corneas than in normal corneas. This increase mainly concerns relatively small TN-C splice variants that may affect corneal cell adhesion and migration and contribute to the exacerbation of PBK-ABK.

Novel splice variants of human tenascin-C mRNA identified in normal and bullous keratopathy corneas

PURPOSE

Pseudophakic/aphakic bullous keratopathy (PBK/ABK) human corneas accumulate an extracellular matrix glycoprotein tenascin-C (TN-C), an important modulator of cell adhesion and migration. Here, the purpose was to identify specific TN-C mRNA splice variants in normal and PBK/ABK human corneas.

METHODS

Conventional and semiquantitative reverse transcription-polymerase chain reaction (RT-PCR) with primers to alternatively spliced (insertional) and constitutive fibronectin type II-like repeats of TN-C was used. Splice variants were identified by cloning and sequencing of RT-PCR products or by Southern blot analysis.

RESULTS

The majority of corneal TN-C mRNA species corresponded to relatively small forms of the protein. Four previously unidentified TN-C mRNA splice variants were found in normal and PBK/ABK corneas that contained insertional repeats A1+A2+B+D, A1+A2+D, A1+B+D, or A1+D. Variants with insertional repeats A1+A2 or A1, previously described in mouse and rat, were also identified in human corneas. Semiquantitative RT-PCR showed that novel TN-C mRNA variants were dramatically elevated in PBK/ABK compared to normal corneas.

CONCLUSION

TN-C protein was found in PBK/ABK but not in normal corneas; however, both normal and diseased corneas contained mRNA for 15 different TN-C isoforms. PBK/ABK corneas had elevated levels of six relatively small TN-C mRNA variants including five novel ones. These specific isoforms may adversely affect adhesion and migration of corneal cells thus contributing to the exacerbation of PBK/ABK.