Jennifer L. Berka

Granular juxtaglomerular cells and prorenin synthesis in mice treated with enalapril.

The short-term and long-term effects (for up to 98 days) of the angiotensin converting enzyme inhibitor enalapril were investigated in male and female BALB/c mice. In control animals, separate antisera to renin and its prosequence produced an identical pattern of staining in granular cells of the juxtaglomerular apparatus (JGA) a short distance from the glomerulus. After 1 day of the enalapril treatment there was a decrease in the number of JGA granular cells immunostained with antisera to both renin and its prosequence. Electron microscopy revealed degranulation of mature granules from JGA granular cells. Fusion of granules with the cell membrane was not observed, but numerous membrane-like structures (myelin figures) were identified in the cytoplasm and extracellular space, indicating possible secretion. In addition, the volume proportion of granulated cells in relation to the glomerular volume was decreased, as was renal renin content. With continuing enalapril treatment, separate antisera to renin and its prosequence stained the same granulated JGA cells with equal intensity. The cells so stained increased in number, extending down the wall of the afferent arteriole to cortical radial arteries (interlobular arteries) upstream from the glomerulus. Ultrastructural studies revealed a progressive development of cytoplasmic granulation in JGA granular cells and in smooth muscle cells extending into cortical radial arteries. Furthermore, the volume proportion of granulated cells in relation to the glomerular volume was significantly increased, as was renal renin content. Thus, short-term enalapril treatment in mice provoked rapid secretion of renin via degranulation of mature granules from JGA granular cells. In contrast, long-term enalapril treatment produced a continuing stimulus for renin synthesis, secretion and storage, resulting in an increased thickness of the afferent arteriolar wall. The mechanism for this change appears to be hypertrophy and hypergranulation of granular JGA cells and neogranulation of smooth muscle cells upstream from the glomerulus. Identification of the intrarenal mediators that induce these phenotypic changes presents an interesting challenge.

Light-microscopic immunolocalization of fibroblast growth factor-1 and -2 in adult rat kidney

Abstract.The fibroblast growth factors (FGFs) are a family of conserved polypeptides known to regulate cell differentiation and proliferation. We have used avidin-biotin-enhanced indirect immunohistochemistry to localize FGF-1 and FGF-2 in the rat kidney. The most consistent specific immunostaining pattern is found in paraffin sections from kidneys perfusion-fixed with 4% paraformaldehyde in 0.1 M phosphate buffer. Intracellular immunoreactivity for FGF-1 and FGF-2 is co-localized in visceral (podocytes) and parietal (Bowman’s capsule) glomerular epithelial cells, S3 segments of proximal tubules, distal tubules and collecting ducts in the cortex, and thick ascending limbs and collecting ducts in the medulla. Immunoreactivity is also observed within urothelium and the tunica adventitia of large blood vessels. No immunostaining is found in cortical S1 or S2 segments of proximal tubules, in frozen sections prepared from unfixed or 4% paraformaldehyde perfusion-fixed kidneys, or in paraffin sections from Bouin-fixed kidneys. Immersion fixation with 4% paraformaldehyde gives a similar staining pattern in paraffin sections to that achieved with perfusion fixation. However, in paraffin sections fixed with methyl Carnoy’s fixative, immunoreactivity is primarily localized to the tunica media of blood vessels, with little tubular or glomerular immunostaining. Thus, variation in immunolocalization patterns for FGFs can be partially attributed to differences in fixative, preparative technique and antibody specificity.

Adrenaline cells of the rat adrenal cortex and medulla contain renin and prorenin

The distribution and content of renin in Sprague-Dawley (SD) and transgenic (mREN-2)27 rats (TG) were compared to further define the cellular basis and function of the adrenal renin-angiotensin system. Antibody binding (to rat and mouse renin protein and prosequence) was visualised in serial paraffin sections using an avidin-biotin peroxidase technique. Chromaffin and adrenaline cells were identified by tyrosine hydroxylase (TH) and phenylethanolamine N-methyltransferase immunoreactivity, respectively. In SD zona glomerulosa (ZG), renin and its prosequence localised to small steroid cells while in homozygous (receiving lisinopril) and heterozygous (untreated) TG, steroid cells labelled in all cortical zones. In addition, throughout the cortex of each strain, large polyhedral adrenaline chromaffin cells occurring singly or in small groups and occasionally in rays labelled for renin and prosequence. Similar large adrenaline cells immunolabelled for all antisera in medulla while other cells were only TH-positive. Total adrenal renin content was 53 times higher in heterozygous transgenics than SD rats and was mainly (74%) prorenin. In SD, 37% of cortical renin was prorenin but in adrenal medulla only active renin was detected. Thus, from present and previous work both renin and prorenin occur not only in mitochondrial dense bodies of the ZG, but also in secretory granules of adrenaline chromaffin cells in both cortex and medulla implying in situ synthesis and paracrine functions.

Renin processing studied by immunogold localization of prorenin and renin in granular juxtaglomerular cells in mice treated with enalapril

SummaryImmunogold techniques were used to investigate renin processing within granular juxtaglomerular cells following short-term (6 h and 1 day) and long-term (4 weeks) enalapril treatment in female BALB/c mice. In control animals, renin protein labelling was localized to all types of granules (proto-, polymorphous, intermediate and mature) and to transport vesicles, whilst prorenin labelling was found in all these sites except mature granules, confirming that active renin is localized to mature granules only. Following short-term enalapril treatment, the exocytosis of renin protein from mature granules was increased. Long-term enalapril treatment resulted in increased numbers of transport vesicles and all types of granules, consistent with increased synthesis and storage of renin. More large intermediate granules contained discrete regions labelled for prorenin. Renin protein was exocytosed from individual and multiple granules, whilst prorenin was exocytosed from protoand intermediate granules. It is concluded that under normal conditions prorenin is secreted constitutively by bulk flow from transport vesicles. On the other hand, active renin is secreted regulatively from mature granules. In conditions of intense stimulation (angiotensin-converting enzyme inhibition treatment), increased synthesis of prorenin leads to enhanced secretion of prorenin by both constitutive and regulative pathways. Under these conditions, the conversion of prorenin to active renin is increased, with increased secretion of active renin occurring in a regulative manner. Furthermore, the localization of prorenin to one discrete region of large intermediate granules leads us to conclude, that cleavage of the prosegment of renin occurs with the transition of intermediate to mature granules.

Effects of angiotensin converting enzyme inhibition on glomerular number, juxtaglomerular cell activity and renin content in experimental unilateral hydronephrosis.

Objective To determine the effects of hydronephrosis on glomerular number and juxtaglomerular cell synthetic activity and the protective influence of angiotensin converting enzyme inhibition. Design A comparison of sham and contralateral kidneys with 8-week ipsilateral ureteral ligated hydronephrotic kidneys in BALB/c mice. Enalapril was administered from 5 weeks in additional sham and hydronephrotic kidney groups. Methods Renin and prorenin immunohistochemistry was applied to sections of perfusion-fixed kidneys at the light and electron microscope level. Glomerular number was estimated by a physical disector-fractionator stereological method. An enzyme kinetic renin assay was performed in kidney tissue and plasma. Results Glomerular number in hydronephrotic kidneys decreased significantly compared with sham and contralateral kidneys. Renin content in hydronephrotic kidneys did not change compared with sham or contralateral kidneys, but the renin content in the glomerulus was significantly greater in hydronephrotic than in contralateral kidneys and similar to in sham kidneys. Contralateral kidneys enlarged significantly and their total renin content decreased significantly compared with hydronephrotic and sham kidneys. Plasma renin was unchanged. Fewer juxtaglomerular cells were labelled for renin and prorenin in contralateral than in hydronephrotic or sham kidneys. Granulopoiesis and exocytotic profiles were markedly greater in hydronephrotic than in contralateral or sham kidneys. Following enalapril, glomerular number was significantly higher in hydronephrotic kidneys and renin content increased proportionally more in contralateral than in hydronephrotic or sham kidneys. Conclusion Hydronephrosis for 8 weeks results in atrophy of 50% of glomeruli and exerts an inhibitory influence on contralateral juxtaglomerular cells while augmenting ipsilateral renin production per remaining glomerulus with maintenance of plasma renin. Enalapril preserves glomeruli and reverses the contralateral inhibitory influence, suggesting an angiotensin-related mechanism.

Production of rat renin fusion protein in Escherichia coli and the preparation of renin-specific antisera

Rat renin fused at the N-terminus with Sj26, a 26,000 Da glutathione S-transferase of Schistosoma japonicum, was expressed in Escherichia coli. The fusion protein was soluble and easily purified from crude bacterial lysates by affinity chromatography on immobilised glutathione. The fusion protein possessed no detectable renin activity. Antisera raised in rabbits against the fusion protein were specific for renin. These antisera did not bind soluble renin but bound immobilized renin. By immunoblotting, these antisera demonstrated rat renin to migrate on sodium dodecyl sulfate-polyacrylamide gel electrophoresis as two broad bands of 33,000-34,000 and 35,000-37,000 Da. By immunocytochemistry of rat tissues, these antisera stained renin containing cells in the afferent arteriole of the glomerulus of the kidney, the zona glomerulosa of the adrenal and the corpus luteum of the ovary. However, apart from the afferent arteriole of the kidney, no immunoreactive renin was identified in blood vessels of the kidney, adrenal or ovary. These studies demonstrate that a recombinant renin fusion protein is a valuable alternative approach for the preparation of renin-specific antisera.