BACKGROUND: From previous experiments it is known that the murine dominant cataract mutants carrying the gene Cat2 have a decreased content of gamma-crystallin-specific transcripts in the juvenile lens, when the cataract is completely expressed. Moreover, the mutant locus has been mapped recently to chromosome 1, closely linked to the gamma E-crystallin gene (map distance 0.3 +/- 0.3 cM). In the present paper we describe the phenotypic changes and the gamma-crystallin expression in embryonic lenses of the Cat2nop mutants as an example for the Cat2 allelic series. METHODS: The technique of in situ hybridization was applied using a probe from the murine gamma D-crystallin gene, and, for control, from the murine alpha A-crystallin gene. Simultaneously, a series of lens sections was examined histologically. RESULTS: The presence of gamma-crystallin mRNA was demonstrated from embryonic day 13.5 (E13.5) onward, but in the mutants to a lower extent than in the wild-type lenses. However, the first morphological abnormality in the mutant lenses was observed as swelling of lens fibers at day E15.5. Progressive degeneration of the lens core followed, leading to a cataracta immatura. CONCLUSION: The reduced level of gamma-crystallin transcripts is the first alteration observable during the embryonic development of the Cat2 mutant lenses: it precedes the morphological changes. This result represents an additional line of argument that the gamma-crystallin genes may be the target of the mutation in the Cat2 mice.
BACKGROUND: From previous experiments it is known that the murine dominant cataract mutants carrying the gene Cat2 have a decreased content of gamma-crystallin-specific transcripts in the juvenile lens, when the cataract is completely expressed. Moreover, the mutant locus has been mapped recently to chromosome 1, closely linked to the gamma E-crystallin gene (map distance 0.3 +/- 0.3 cM). In the present paper we describe the phenotypic changes and the gamma-crystallin expression in embryonic lenses of the Cat2nop mutants as an example for the Cat2 allelic series. METHODS: The technique of in situ hybridization was applied using a probe from the murinegamma D-crystallin gene, and, for control, from the murine alpha A-crystallin gene. Simultaneously, a series of lens sections was examined histologically. RESULTS: The presence of gamma-crystallin mRNA was demonstrated from embryonic day 13.5 (E13.5) onward, but in the mutants to a lower extent than in the wild-type lenses. However, the first morphological abnormality in the mutant lenses was observed as swelling of lens fibers at day E15.5. Progressive degeneration of the lens core followed, leading to a cataracta immatura. CONCLUSION: The reduced level of gamma-crystallin transcripts is the first alteration observable during the embryonic development of the Cat2 mutant lenses: it precedes the morphological changes. This result represents an additional line of argument that the gamma-crystallin genes may be the target of the mutation in the Cat2mice.
Authors: E Héon; M Priston; D F Schorderet; G D Billingsley; P O Girard; N Lubsen; F L Munier Journal: Am J Hum Genet Date: 1999-11 Impact factor: 11.025
Authors: Shinje Ghim; A Bennett Jenson; Jason A Bubier; Kathleen A Silva; Richard S Smith; John P Sundberg Journal: Exp Mol Pathol Date: 2008-08-06 Impact factor: 3.362
Authors: Vanita Berry; Alex Ionides; Nikolas Pontikos; Michalis Georgiou; Jing Yu; Louise A Ocaka; Anthony T Moore; Roy A Quinlan; Michel Michaelides Journal: Orphanet J Rare Dis Date: 2020-11-26 Impact factor: 4.123