BACKGROUND: The Fisher 344 (F344) rat kidney transplanted to a Lewis rat recipient is a common model of chronic renal allograft nephropathy (CAN); however, CAN does not develop when the Lewis kidney is grafted into a F344 recipient. In this study we investigated whether a difference in nephron number/glomerular volume exists between the strains that could contribute to a greater susceptibility to development of kidney disease in the F344. METHODS: Separate animals, male F344 and Lewis rats, were subjected to either sham surgery or right uni-nephrectomy and infarction of 2/3 of the left kidney, to produce a 5/6 ablation/infarction injury (5/6 A/I). Serial urinary protein excretions were measured, a terminal 24-h creatinine clearance was obtained and rats were killed 11 weeks after surgery and kidneys were harvested for pathology. Glomerular volumes were measured in the sham controls of each strain. Glomerular number was counted in separate, normal rats of each strain. RESULTS: The normal F344 had approximately 30% fewer glomeruli than Lewis rats that were larger in volume. The sham F344 had similar creatinine clearance and glomerular structure to the Lewis shams, although BP and urine protein excretion were higher. After 5/6 A/I the F344 developed more severe proteinuria and structural kidney damage. When factored for kidney weight, the F344 rats exhibited a greater compensatory hyperfiltration in response to 5/6 A/I, compared to Lewis. CONCLUSIONS: The F344 strain is more vulnerable to development of progressive kidney damage due to 5/6 A/I, compared to the Lewis. This is likely due to the lower nephron number/greater glomerular volume of the F344 that may also account for the greater susceptibility to CAN exhibited by this strain.
BACKGROUND: The Fisher 344 (F344) rat kidney transplanted to a Lewis rat recipient is a common model of chronic renal allograft nephropathy (CAN); however, CAN does not develop when the Lewis kidney is grafted into a F344 recipient. In this study we investigated whether a difference in nephron number/glomerular volume exists between the strains that could contribute to a greater susceptibility to development of kidney disease in the F344. METHODS: Separate animals, male F344 and Lewis rats, were subjected to either sham surgery or right uni-nephrectomy and infarction of 2/3 of the left kidney, to produce a 5/6 ablation/infarction injury (5/6 A/I). Serial urinary protein excretions were measured, a terminal 24-h creatinine clearance was obtained and rats were killed 11 weeks after surgery and kidneys were harvested for pathology. Glomerular volumes were measured in the sham controls of each strain. Glomerular number was counted in separate, normal rats of each strain. RESULTS: The normal F344 had approximately 30% fewer glomeruli than Lewis rats that were larger in volume. The sham F344 had similar creatinine clearance and glomerular structure to the Lewis shams, although BP and urine protein excretion were higher. After 5/6 A/I the F344 developed more severe proteinuria and structural kidney damage. When factored for kidney weight, the F344 rats exhibited a greater compensatory hyperfiltration in response to 5/6 A/I, compared to Lewis. CONCLUSIONS: The F344 strain is more vulnerable to development of progressive kidney damage due to 5/6 A/I, compared to the Lewis. This is likely due to the lower nephron number/greater glomerular volume of the F344 that may also account for the greater susceptibility to CAN exhibited by this strain.
Authors: H S Mackenzie; S G Tullius; U W Heemann; H Azuma; H G Rennke; B M Brenner; N L Tilney Journal: J Clin Invest Date: 1994-11 Impact factor: 14.808
Authors: A Fassi; F Sangalli; R Maffi; F Colombi; E I Mohamed; B M Brenner; G Remuzzi; A Remuzzi Journal: J Am Soc Nephrol Date: 1998-08 Impact factor: 10.121
Authors: K Schmidt; C Pesce; Q Liu; R G Nelson; P H Bennett; H Karnitschnig; L J Striker; G E Striker Journal: J Am Soc Nephrol Date: 1992-08 Impact factor: 10.121
Authors: Heloisa Cristina Caldas; Thaís Amarante Peres de Paula Couto; Ida Maria Maximina Fernandes; Maria Alice Sperto Ferreira Baptista; Rosa Sayoko Kawasaki-Oyama; Eny Maria Goloni-Bertollo; Domingo Marcolino Braile; Mario Abbud-Filho Journal: Clin Exp Nephrol Date: 2015-01-29 Impact factor: 2.801
Authors: Chang Ki Lee; Young Eun Yoon; Kyung Hwa Choi; Seung Choul Yang; Joong Shik Lee; Dong Jin Joo; Kyu Ha Huh; Yu Seun Kim; Woong Kyu Han Journal: Korean J Urol Date: 2013-12-10