L M Wagner1, D J Takemoto. 1. Department of Anatomy and Physiology, Kansas State University, Manhattan, KS 66506, USA. lynnw@ksu.edu
Abstract
PURPOSE: The overexpression of PKCalpha or PKCgamma for extended periods of time causes the formation of lentoid bodies in the N/N 1003A rabbit lens epithelial cell line. To determine how differentiated the lentoid bodies are, we have looked for alphaA-, alphaB-, beta-, and gamma-crystallin levels in lentoid bodies after 4 and 8 weeks of lentoid body development. METHODS: Cells overexpressing PKCalpha or PKCgamma were plated in 6 well plates and were allowed to form lentoid bodies for up to 8 weeks. Lentoid bodies were fixed and stained with PKCalpha or PKCgamma antibodies along with either alphaA-, alphaB-, beta-, or gamma-crystallin antisera and viewed under a confocal microscope. Lentoid bodies were harvested in lysis buffer and homogenized. Fifty micrograms of protein per lane was loaded onto an SDS-PAGE gel and the bands transferred onto nitrocellulose. The blot was probed with either alphaA-, alphaB-, beta-, or gamma-crystallin antibodies for 12 h. Total RNA from lentoid bodies was isolated and 5 microg of total RNA was transcribed to first-strand cDNA. The PCR products were analyzed by 2% agarose gel electrophoresis. RESULTS: alphaB-crystallin was present in normal N/N 1003A cells and the lentoid bodies formed from PKCalpha and PKCgamma overexpression. alphaA-crystallin was only detectable in lentoid bodies after PKCalpha or PKCgamma overexpression. RT-PCR was able to detect beta-crystallin expression while the Western blot analysis and immunocytostaining detected small amounts of beta-crystallin protein. No gamma-crystallin expression was noted in these lentoid bodies. CONCLUSIONS: Overexpression of PKCalpha or PKCgamma in the N/N 1003A cell line induced lentoid body formation. These lentoid bodies expressed not only alphaB-crystallin but alphaA- and beta-crystallin. These results suggest a role for PKCs in lens epithelial cell differentiation to a fiber cell.
PURPOSE: The overexpression of PKCalpha or PKCgamma for extended periods of time causes the formation of lentoid bodies in the N/N 1003Arabbit lens epithelial cell line. To determine how differentiated the lentoid bodies are, we have looked for alphaA-, alphaB-, beta-, and gamma-crystallin levels in lentoid bodies after 4 and 8 weeks of lentoid body development. METHODS: Cells overexpressing PKCalpha or PKCgamma were plated in 6 well plates and were allowed to form lentoid bodies for up to 8 weeks. Lentoid bodies were fixed and stained with PKCalpha or PKCgamma antibodies along with either alphaA-, alphaB-, beta-, or gamma-crystallin antisera and viewed under a confocal microscope. Lentoid bodies were harvested in lysis buffer and homogenized. Fifty micrograms of protein per lane was loaded onto an SDS-PAGE gel and the bands transferred onto nitrocellulose. The blot was probed with either alphaA-, alphaB-, beta-, or gamma-crystallin antibodies for 12 h. Total RNA from lentoid bodies was isolated and 5 microg of total RNA was transcribed to first-strand cDNA. The PCR products were analyzed by 2% agarose gel electrophoresis. RESULTS:alphaB-crystallin was present in normal N/N 1003A cells and the lentoid bodies formed from PKCalpha and PKCgamma overexpression. alphaA-crystallin was only detectable in lentoid bodies after PKCalpha or PKCgamma overexpression. RT-PCR was able to detect beta-crystallin expression while the Western blot analysis and immunocytostaining detected small amounts of beta-crystallin protein. No gamma-crystallin expression was noted in these lentoid bodies. CONCLUSIONS: Overexpression of PKCalpha or PKCgamma in the N/N 1003A cell line induced lentoid body formation. These lentoid bodies expressed not only alphaB-crystallin but alphaA- and beta-crystallin. These results suggest a role for PKCs in lens epithelial cell differentiation to a fiber cell.