New methods for maintaining human renal epithelial cells and analyzing their ion transport functions: potential analysis of genetic disease

Effects of advanced glycation end product modification on proximal tubule epithelial cell processing of albumin

AIM

The goal of this work is to understand the cellular effects of advanced glycation end product (AGE)-modified protein on renal proximal tubule cells.

BACKGROUND

A major function of the proximal tubule is to reabsorb and process filtered proteins. Diabetes is characterized by increased quantities of tissue and circulating proteins modified by AGEs. Therefore in diabetes, plasma proteins filtered at the glomerulus and presented to the renal proximal tubule are likely to be highly modified by AGEs.

METHODS

The model system was electrically resistant polarized renal proximal tubular epithelial cells in monolayer culture. The model proteins comprise a well-characterized AGE, methylglyoxal-modified bovine serum albumin (MGO-BSA), and unmodified BSA.

RESULTS

Renal proximal tubular cells handle MGO-BSA and native BSA in markedly disparate ways, including differences in: (1) kinetics of binding, uptake, and intracellular accumulation, (2) processing and fragmentation, and (3) patterns of electrical conductance paralleling temporal changes in binding, uptake and processing.

CONCLUSION

These differences support the idea that abnormal protein processing by the renal tubule can be caused by abnormal proteins, thereby forging a conceptual link between the pathogenic role of AGEs and early changes in tubular function that can lead to hypertrophy and nephropathy in diabetes.

Phenotypic analysis of conditionally immortalized cells isolated from the BPK model of ARPKD

To study the pathophysiology of autosomal recessive polycystic kidney disease (ARPKD), we sought to develop conditionally immortalized control and cystic murine collecting tubule (CT) cell lines. CT cells were isolated from intercross breedings between BPK mice (bpk(+/-)), a murine model of ARPKD, and the Immorto mice (H-2K(b)-ts-A58(+/+)). Second-generation outbred offspring (BPK x Immorto) homozygous for the BPK mutation (bpk(-/-); Im(+/+/-); cystic BPK/H-2K(b)-ts-A58), were phenotypically indistinguishable from inbred cystic BPK animals (bpk(-/-)). Cystic BPK/H-2K(b)-ts-A58 mice developed biliary ductal ectasia and massively enlarged kidneys, leading to renal failure and death by postnatal day 24. Principal cells (PC) were isolated from outbred cystic and noncystic BPK/H-2K(b)-ts-A58 littermates at specific developmental stages. Epithelial monolayers were under nonpermissive conditions for markers of epithelial cell polarity and PC function. Cystic and noncystic cells displayed several properties characteristic of PCs in vivo, including amiloride-sensitive sodium transport and aquaporin 2 expression. Cystic cells exhibited apical epidermal growth factor receptor (EGFR) mislocalization but normal expression of ZO-1 and E-cadherin. Hence, these cell lines retain the requisite characteristics of PCs, and cystic BPK/H-2K(b)-ts-A58 PCs retained the abnormal EGFR membrane expression characteristic of ARPKD. These cell lines represent important new reagents for studying the pathogenesis of ARPKD.