High incidence of spontaneous cataracts in aging laboratory rabbits of an inbred strain.

OBJECTIVE To investigate the occurrence of spontaneous cataracts in a breeding colony of the inbred EIII/JC strain of New Zealand White rabbits (Oryctolagus cuniculi) and the congenic strain of EIII/JC-HLA-A2.1transgenic rabbits. PROCEDURE A retrospective study was conducted by collecting and analyzing data from clinical records for individual rabbits filed between January 2011 and October 2013. RESULTS Thirteen cases (eight females and five males) of cataract were identified in a group of 51 EIII/JC inbred rabbits with a morbidity of 25.5%. The median age of the rabbits identified with unilateral or bilateral cataracts was 43 months in contrast to the median age of 23 months of the entire group of 51 rabbits. Additionally, seven cases (five females and two males) of cataracts were identified in a group of 21 EIII/JC-HLA-A2.1 transgenic rabbits. The EIII/JC-HLA-A2.1 transgenic rabbits showed similar morbidity (33.3%) and median age (41 months) for the development of cataracts as the EIII/JC rabbits. In both groups, none of the rabbits younger than 37 months developed cataracts while 13 (93%) of 14 EIII/JC rabbits aged 37-49 months and seven (63.6%) of 11 EIII/JC-HLA-A2.1 transgenic rabbits aged 37-43 months developed cataracts. In contrast, none of 78 outbred rabbits with a median age of 26 months (10-67 months) developed cataracts. CONCLUSION Results of this study indicate that the occurrence and high incidence of spontaneous cataracts in this inbred strain (EIII/JC) of rabbits were strictly age related and consistently transmitted through inbreeding.

[1]  H. Rush,et al.  Biology and Diseases of Rabbits , 2015, Laboratory Animal Medicine.

[2]  S. Pritt,et al.  Incidence of spontaneous ocular lesions in laboratory rabbits. , 2011, Comparative medicine.

[3]  N. Christensen,et al.  Establishment of a Cottontail Rabbit Papillomavirus/HLA-A2.1 Transgenic Rabbit Model , 2007, Journal of Virology.

[4]  N. Christensen,et al.  An HLA-A2.1-Transgenic Rabbit Model to Study Immunity to Papillomavirus Infection1 , 2006, The Journal of Immunology.

[5]  M. Heath,et al.  Prevalence of feline cataract: results of a cross-sectional study of 2000 normal animals, 50 cats with diabetes and one hundred cats following dehydrational crises. , 2006, Veterinary ophthalmology.

[6]  N. Mamalis,et al.  Experimental evaluation of ophthalmic devices and solutions using rabbit models. , 2006, Veterinary ophthalmology.

[7]  M. Won,et al.  Spontaneous ophthalmic diseases in 586 New Zealand white rabbits. , 2005, Experimental animals.

[8]  M. Heath,et al.  Prevalence of canine cataract: preliminary results of a cross-sectional study. , 2004, Veterinary ophthalmology.

[9]  D. Williams Lens morphometry determined by B-mode ultrasonography of the normal and cataractous canine lens. , 2004, Veterinary ophthalmology.

[10]  John I. Clark,et al.  Characterization of a mutation in the lens-specific CP49 in the 129 strain of mouse. , 2004, Investigative ophthalmology & visual science.

[11]  R. Munger,et al.  Spontaneous cataracts in laboratory rabbits. , 2002, Veterinary ophthalmology.

[12]  R. Carr,et al.  Parameters of glucose and lipid metabolism in the male Göttingen minipig: influence of age, body weight, and breeding family. , 2001, Comparative medicine.

[13]  R. Klein,et al.  Incidence of age-related cataract: the Beaver Dam Eye Study. , 1998, Archives of ophthalmology.

[14]  J. Kreider,et al.  Immortalization of inbred rabbit keratinocytes from a Shope papilloma and tumorigenic transformation of the cells by EJ-ras. , 1996, Cancer letters.

[15]  M. Hosokawa,et al.  Cataract and other ophthalmic lesions in senescence accelerated mouse (SAM). Morphology and incidence of senescence associated ophthalmic changes in mice. , 1984, Experimental eye research.

[16]  N. Ihara A new strain of rat with an inherited cataract , 1983, Experientia.

[17]  P. Conquet,et al.  A method for the routine intraocular pressure (IOP) measurement in the rabbit: range of IOP variations in this species. , 1977, Experimental eye research.

[18]  V. Bergdall,et al.  Mycoses and Non-Infectious Diseases , 2012 .

[19]  J. James,et al.  Bfsp2 mutation found in mouse 129 strains causes the loss of CP49 and induces vimentin-dependent changes in the lens fibre cell cytoskeleton. , 2004, Experimental eye research.