Christopher John Von Ruhland scite author profile

Glomerular endothelial cells (GEnC) are specialized cells with important roles in physiological filtration and glomerular disease. Despite their unique features, GEnC have been little studied because of difficulty in maintaining them in cell culture. We have addressed this problem by generation of conditionally immortalized (ci) human GEnC using technology with which we have previously produced ci podocytes. Primary culture GEnC were transduced with temperature-sensitive simian virus 40 large tumour antigen and telomerase using retroviral vectors. Cells were selected, cloned, and then characterized by light and electron microscopy (EM), response to vascular endothelial growth factor (VEGF), and tumour necrosis factor (TNF)alpha, expression of endothelial markers by focused gene array, immunofluorescence and Western blotting, and formation and behaviour of monolayers. CiGEnC proliferated at the permissive temperature (33 degrees C) and became growth arrested at the non-permissive temperature (37 degrees C). CiGEnC retained morphological features of early-passage primary culture GEnC up to at least p41, confirming successful immortalization. EM demonstrated fenestrations, increased in number by VEGF. mRNA analysis confirmed expression of the endothelial markers platelet endothelial cell adhesion molecule 1, intercellular adhesion molecule 2, VEGF receptor 2, and von Willebrand factor, validated by immunofluorescence and Western blotting. CiGEnC also expressed Tie2, and TNFalpha upregulated E-selectin. CiGEnC formed monolayers with barrier properties responsive to cyclic adenosine 3',5' monophosphate (cAMP) and thrombin. CiGEnC retain the markers and behaviour of primary culture GEnC. They express fenestrations which are upregulated in response to VEGF. These cells are a unique resource for further study of GEnC and their roles in glomerular filtration, glomerular disease, and response to glomerular injury.

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Caveolin-1 Expression and Caveolae Biogenesis during Cell Transdifferentiation in Lung Alveolar Epithelial Primary Cultures

Campbell

Hollins

Aleid

et al. 1999

Biochemical and Biophysical Research Communications

118

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Morphologic Changes in the Peritoneal Membrane of Patients with Renal Disease

et al. 2002

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ABSTRACT. This study examined the morphologic features of the parietal peritoneal membranes of 130 patients undergoing peritoneal dialysis (PD) and compared them with the features of the peritoneal membranes of normal individuals, uremic predialysis patients, and patients undergoing hemodialysis. The median thickness of the submesothelial compact collagenous zone was 50 μm for normal subjects, 140 μm for uremic patients, 150 μm for patients undergoing hemodialysis, and 270 μm for patients undergoing PD (P < 0.001 for all versus normal subjects). Compact zone thickness increased significantly with the duration of PD therapy [0 to 24 mo, 180 μm (n = 58); 25 to 48 mo, 240 μm (n = 24); 49 to 72 mo, 300 μm (n = 13); 73 to 96 mo, 750 μm (n = 16); >97 mo, 700 μm (n = 19)]. Vascular changes included progressive subendothelial hyalinization, with luminal narrowing or obliteration. These changes were absent in samples from normal subjects but were present in 28% of samples from uremic patients and 56% of biopsies from patients undergoing PD. In the PD group, the prevalence of vasculopathy increased significantly with therapy duration (P = 0.0001). The density of blood vessels per unit length of peritoneum was significantly higher for patients with membrane failure and was correlated with the degree of fibrosis (P = 0.01). For the first time, a comprehensive cross-sectional analysis of the morphologic changes in the peritoneal membranes of patients undergoing PD is provided. The infrequency of fibrosis in the absence of vasculopathy suggests that vasculopathy may predispose patients to the development of fibrosis. This study provides a sufficiently large cohort of samples to allow structure-function relationships to be established, as well as providing a repository of tissue for further studies.

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Defects in cell polarity underlie TSC and ADPKD-associated cystogenesis

Bonnet

Aldred²,

Ruhland

et al. 2009

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Clinical trials are underway for the treatment of tuberous sclerosis (TSC)-associated tumours using mTOR inhibitors. Here, we show that many of the earliest renal lesions from Tsc1+/- and Tsc2+/- mice do not exhibit mTOR activation, suggesting that pharmacological targeting of an alternative pathway may be necessary to prevent tumour formation. Patients with TSC often develop renal cysts and those with inherited co-deletions of the autosomal dominant polycystic kidney disease (ADPKD) 1 gene (PKD1) develop severe, early onset, polycystic kidneys. Using mouse models, we showed a genetic interaction between Tsc1 and Tsc2 with Pkd1 and confirmed an mTOR-independent pathway of renal cystogenesis. We observed that the Tsc and Pkd1 gene products helped regulate primary cilia length and, consistent with the function of this organelle in modulating cell polarity, found that many dividing pre-cystic renal tubule and hepatic bile duct cells from Tsc1, Tsc2 and Pkd1 heterozygous mice were highly misoriented. We therefore propose that defects in cell polarity underlie TSC and ADPKD-associated cystic disease and targeting of this pathway may be of key therapeutic benefit.

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Opa1 is essential for retinal ganglion cell synaptic architecture and connectivity

Williams

Piechota

Ruhland

et al. 2012

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Retinal ganglion cell dendritic pruning has been reported in association with a 50% reduction in Opa1 transcript and protein in retinal and neural tissue, which manifests as visual dysfunction in the heterozygous mutant mouse, B6;C3-Opa1(Q285STOP). Here we report a marked reduction in retinal ganglion cell synaptic connectivity in the absence of soma loss and explore the mechanism and relationship between mitochondrial integrity and synaptic connectivity. We observed decreased levels of postsynaptic density protein 95 in Opa1(+/-) mutant mice consistent with synaptic loss in the inner plexiform layer. Glutamatergic but not γ-aminobutyric acid-ergic synaptic sites were reduced in Opa1(+/-) mice. We observed increased synaptic vesicle number in bipolar cell terminal arbours assessed by immunohistochemistry, electron microscopy and western blot analysis. These changes occur without significant loss of mitochondrial membrane potential in retina and optic nerve. Analysis of biolistically transfected retinal ganglion cells shows the retraction of mitochondria towards the soma, and mitochondrial fragmentation, preceding dendritic loss. These processes cast light on the intimate relationship between normal mitochondrial fusion and fission balances, as influenced by the OPA1 protein, in neural cell connectivity in the mammalian retina.

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