Receptor-Mediated Endocytosis of Lysozyme in Renal Proximal Tubules of the Frog Rana Temporaria

The mechanism of protein reabsorption in the kidney of lower vertebrates remains insufficiently investigated in spite of raising interest to the amphibian and fish kidneys as a useful model for physiological and pathophysiological examinations. In the present study, we examined the renal tubular uptake and the internalization rote of lysozyme after its intravenous injection in the wintering frog Rana temporaria using immunohisto- and immunocytochemistry and specific markers for some endocytic compartments. The distinct expression of megalin and cubilin in the proximal tubule cells of lysozyme-injected frogs was revealed whereas kidney tissue of control animals showed no positive immunoreactivity. Lysozyme was detected in the apical endocytic compartment of the tubular cells and colocalized with clathrin 10 min after injection. After 20 min, lysozyme was located in the subapical compartment negative to clathrin (endo-somes), and intracellular trafficking of lysozyme was coincided with the distribution of megalin and cubilin. However, internalized protein was retained in the endosomes and did not reach lysosomes within 30 min after treatment that may indicate the inhibition of intra-cellular trafficking in hibernating frogs. For the first time, we provided the evidence that lysozyme is filtered through the glomeruli and absorbed by receptor-mediated clathrin-dependent endocytosis in the frog proximal tubule cells. Thus, the protein uptake in the amphibian mesonephros is mediated by megalin and cubilin that confirms a critical role of endocytic receptors in the renal reabsorption of proteins in amphibians as in mammals.Key words: Endocytic receptor, frog, kidney, lysozyme, protein uptake, proximal tubule     

Ion Secretion and Isotonic Transport in Frog Skin Glands

The aim of this study was to clarify the mechanism of isotonic fluid transport in frog skin glands. Stationary ion secretion by the glands was studied by measuring unidirectional fluxes of ²⁴Na⁺, ⁴²K⁺, and carrier-free ¹³⁴Cs⁺ in paired frog skins bathed on both sides with Ringer's solution, and with 10⁻⁵ m noradrenaline on the inside and 10⁻⁴ m amiloride on the outside. At transepithelial thermodynamic equilibrium conditions, the ¹³⁴Cs⁺ flux ratio, J ^out _Cs/J ⁱⁿ _Cs, varied in seven pairs of preparations from 6 to 36. Since carrier-free ¹³⁴Cs⁺ entering the cells is irreversibly trapped in the cellular compartment (Ussing & Lind, 1996), the transepithelial net flux of ¹³⁴Cs⁺ indicates that a paracellular flow of water is dragging ¹³⁴Cs⁺ in the direction from the serosal- to outside solution. From the measured flux ratios it was calculated that the force driving the secretory flux of Cs⁺ varied from 30 to 61 mV among preparations. In the same experiments unidirectional Na⁺ fluxes were measured as well, and it was found that also Na⁺ was subjected to secretion. The ratio of unidirectional Na⁺ fluxes, however, was significantly smaller than would be predicted if the two ions were both flowing along the paracellular route dragged by the flow of water. This result indicates that Na⁺ and Cs⁺ do not take the same pathway through the glands. The flux ratio of unidirectional K⁺ fluxes indicated active secretion of K⁺. The time it takes for steady-state K⁺ fluxes to be established was significantly longer than that of the simultaneously measured Cs⁺ fluxes. These results allow the conclusion that — in addition to being transported between cells — K⁺ is submitted to active transport along a cellular pathway.Based on the recirculation theory, we propose a new model which accounts for stationary Na⁺, K⁺, Cl⁻ and water secretion under thermodynamic equilibrium conditions. The new features of the model, as compared to the classical Silva-model for the shark-rectal gland, are: (i) the sodium pumps in the activated gland transport Na⁺ into the lateral intercellular space only. (ii) A barrier at the level of the basement membrane prevents the major fraction of Na⁺ entering the lateral space from returning to the serosal bath. Thus, Na⁺ is secreted into the outside bath. It has to be assumed then that the Na⁺ permeability of the basement membrane barrier (P ^BM _Na) is smaller than the Na⁺ permeability of the junctional membrane (P ^JM _Na), i.e., P ^JM _Na/P ^BM _Na > 1. The secretory paracellular flow of water further requires that the Na⁺ reflection coefficients (σ_Na) of the two barriers are governed by the conditions, σ^BM _Na > 0, and σ^BM _Na > σ^JM _Na. (iii) Na⁺ channels are located in the apical membrane of the activated gland cells, so that a fraction of the Na⁺ outflux appearing downstream the lateral intercellular space is recirculated by the gland cells. Based on measured unidirectional fluxes, a set of equations is developed from which we estimate the ion fluxes flowing through major pathways during stationary secretion. It is shown that 80% of the sodium ions flowing downstream the lateral intercellular space is recycled by the gland cells. Our calculations also indicate that under the conditions prevailing in the present experiments 1.8 ATP molecule would be hydrolyzed for every Na⁺ secreted to the outside bath. Received: 30 January 1996/Revised: 12 March 1996     

Urate Transport Across the Apical Membrane of Renal Proximal Tubules

Since the molecular cloning of the renal apical urate/anion exchanger URAT1 (SLC22A12), several membrane proteins relevant to urate transport have been identified. In addition, the identification of PDZ (PSD-95, DglA, and ZO-1) domain protein PDZK1 as a binding partner of URAT1, and the emerging role of PDZ scaffold for renal apical transporters have led to a new concept of renal urate transport: urate-transporting multimolecular complex, or “urate transportsome,” that may form an ultimate functional unit at the apical membrane of renal proximal tubules. Elucidation of urate transportsome will lead to the new drug development for hyperuricemia.     

Action Potentials, Afterpotentials, and Excitation-Contraction Coupling in Frog Sartorius Fibers without Transverse Tubules

In frog sartorius muscle fibers in which the transverse tubular system has been disrupted by treatment with glycerol, action potentials which are unaccompanied by twitches can be recorded. These action potentials appear to be the same as those recorded in normal fibers except that the early afterpotential usually consists of a small hyperpolarization of short duration. After a train of action potentials no late afterpotential is seen even when the membrane potential is changed from the resting level. In fibers without transverse tubules hyperpolarizing currents do not produce a creep in potential. The interruption of excitation-contraction coupling, the changes in the afterpotentials, and the disappearance of creep are all attributed to the lack of a transverse tubular system.     

P-Glycoprotein and the Renal Secretion of Deoxyribonucleosides

Abstract

2′-Deoxytubercidin is secreted by the organic cation secretory system of mouse kidney. The presented data indicate that this secretion occurs by a transport system other than the MDR1 P-glycoprotein.     

Increased Expression of Intranuclear Matrix Metalloproteinase 9 in Atrophic Renal Tubules Is Associated with Renal Fibrosis

Background

Reduced turnover of extracellular matrix has a role in renal fibrosis. Matrix metalloproteinases (MMPs) is associated with many glomerular diseases, but the histological association of MMPs and human renal fibrosis is unclear.

Methods

This is a retrospective study. Institutional Review Board approval was obtained for the review of patients’ medical records, data analysis and pathological specimens staining with waiver of informed consents. Specimens of forty-six patients were examined by immunohistochemical stain of MMP-9 in nephrectomized kidneys, and the association of renal expression of MMP-9 and renal fibrosis was determined. MMP-9 expression in individual renal components and fibrosis was graded as high or low based on MMP-9 staining and fibrotic scores.

Results

Patients with high interstitial fibrosis scores (IFS) and glomerular fibrosis scores (GFS) had significantly higher serum creatinine, lower estimated glomerular filtration rate (eGFR), and were more likely to have chronic kidney disease (CKD) and urothelial cell carcinoma. Univariate analysis showed that IFS and GFS were negatively associated with normal and atrophic tubular cytoplasmic MMP-9 expression and IFS was positively correlated with atrophic tubular nuclear MMP-9 expression. Multivariate stepwise regression indicated that MMP-9 expression in atrophic tubular nuclei (r = 0.4, p = 0.002) was an independent predictor of IFS, and that MMP-9 expression in normal tubular cytoplasm (r = −0.465, p<0.001) was an independent predictor of GFS.

Conclusions

Interstitial fibrosis correlated with MMP-9 expression in the atrophic tubular nuclei. Our results indicate that renal fibrosis is associated with a decline of MMP-9 expression in the cytoplasm of normal tubular cells and increased expression of MMP-9 in the nuclei of tubular atrophic renal tubules.     

Gastric Acid Secretion in Chronic Renal Failure

Contrary to the small amount of published evidence, but in accordance with clinical impression, we have found an increased incidence of peptic ulceration in people with chronic renal failure. Hyperacidic secretion in response to a standard pentagastrin test occurs in patients established on long-term dialysis treatment. The traditional liability of azotaemic patients to peptic ulceration seems not to be decreased by adequate long-term dialysis and indeed may be worsened.     

Ca^2+介导肾小管ICAM-1高表达参与肾结石的形成

本研究旨在探讨细胞间黏附分子1 (intercellular cell adhesion molecule-1, ICAM-1)在高钙尿肾结石(genetic hypercalcium renal stones, GHS)大鼠中的表达以及Ca^2+对肾小管上皮细胞ICAM-1的影响。取GHS大鼠和SD大鼠,荧光定量PCR检测肾组织ICAM-1 mRNA表达水平,免疫组化检测ICAM-1蛋白表达。比色法检测大鼠肾组织SOD活力和MDA水平。通过ICAM-1 siRNA转染大鼠肾小管上皮细胞系NRK-52E构建ICAM-1低表达细胞模型,Ca^2+(5 mmol/L)处理NRK-52E细胞,检测细胞SOD活力和MDA水平,通过Western blotting检测细胞ICAM-1蛋白表达水平。荧光定量PCR结果显示,与SD对照组相比,GHS组大鼠肾组织ICAM-1 mRNA水平显著升高,差异具有统计学意义(p<0.01);免疫组化结果显示,ICAM-1蛋白在GHS大鼠肾组织中呈阳性表达;氧化应激检测结果显示,与SD对照组比较,GHS组大鼠肾组织SOD活性显著降低,MDA含量显著升高,差异具有统计学意义(p<0.01)。Western blotting结果显示,与对照组比较,Ca^2+组NRK-52E细胞ICAM-1表达蛋白显著升高,差异具有统计学意义(p<0.01);与Ca^2+处理NC-siRNA组比较,Ca^2+处理ICAM-1 siRNA组NRK-52E细胞ICAM-1表达蛋白显著降低;与ICAM-1 siRNA组NRK-52E细胞比较,Ca^2+处理ICAM-1 siRNA组NRK-52E细胞后ICAM-1表达蛋白水平无显著性变化(p>0.05)。细胞氧化应激检测结果显示,与对照组比较,Ca^2+组NRK-52E细胞SOD活性显著降低,MDA含量显著升高,差异具有统计学意义(p<0.01);与Ca^2+处理NC-siRNA组比较,Ca^2+处理ICAM-1 siRNA组SOD活性显著升高,MDA含量显著降低,差异均具有统计学意义(p<0.01);与ICAM-1 siRNA组NRK-52E细胞比较,Ca^2+处理ICAM-1 siRNA组NRK-52E细胞SOD活力和MDA含量无显著性变化(p>0.05)。ICAM-1在GHS肾小管上皮细胞中高表达,Ca^2+诱导肾小管上皮细胞ICAM-1高表达,促进细胞氧化应激水平。     

5-Lypoxygenase Products Are Involved in Renal Tubulointerstitial Injury Induced by Albumin Overload in Proximal Tubules in Mice

The role of albumin overload in proximal tubules (PT) in the development of tubulointerstitial injury and, consequently, in the progression of renal disease has become more relevant in recent years. Despite the importance of leukotrienes (LTs) in renal disease, little is known about their role in tubulointerstitial injury. The aim of the present work was to investigate the possible role of LTs on tubulointerstitial injury induced by albumin overload. An animal model of tubulointerstitial injury challenged by bovine serum albumin was developed in SV129 mice (wild-type) and 5-lipoxygenase-deficient mice (5-LO^–/–). The changes in glomerular morphology and nestin expression observed in wild-type mice subjected to kidney insult were also observed in 5-LO^–/– mice. The levels of urinary protein observed in the 5-LO^–/– mice subjected or not to kidney insult were lower than those observed in respective wild-type mice. Furthermore, the increase in lactate dehydrogenase activity, a marker of tubule damage, observed in wild-type mice subjected to kidney insult did not occur in 5-LO^–/– mice. LTB₄ and LTD₄, 5-LO products, decreased the uptake of albumin in LLC-PK1 cells, a well-characterized porcine PT cell line. This effect correlated with activation of protein kinase C and inhibition of protein kinase B. The level of proinflammatory cytokines, tumor necrosis factor-α and interleukin (IL)-6, increased in mice subjected to kidney insult but this effect was not modified in 5-LO^–/– mice. However, 5-LO^–/– mice subjected to kidney insult presented lower macrophage infiltration and higher levels of IL-10 than wild-type mice. Our results reveal that LTs have an important role in tubulointerstitial disease induced by albumin overload.     

Distal Renal Tubules Are Deficient in Aggresome Formation and Autophagy upon Aldosterone Administration

Prolonged elevations of plasma aldosterone levels are associated with renal pathogenesis. We hypothesized that renal distress could be imposed by an augmented aldosterone-induced protein turnover challenging cellular protein degradation systems of the renal tubular cells. Cellular accumulation of specific protein aggregates in rat kidneys was assessed after 7 days of aldosterone administration. Aldosterone induced intracellular accumulation of 60 s ribosomal protein L22 in protein aggregates, specifically in the distal convoluted tubules. The mineralocorticoid receptor inhibitor spironolactone abolished aldosterone-induced accumulation of these aggregates. The aldosterone-induced protein aggregates also contained proteasome 20 s subunits. The partial de-ubiquitinase ataxin-3 was not localized to the distal renal tubule protein aggregates, and the aggregates only modestly colocalized with aggresome transfer proteins dynactin p62 and histone deacetylase 6. Intracellular protein aggregation in distal renal tubules did not lead to development of classical juxta-nuclear aggresomes or to autophagosome formation. Finally, aldosterone treatment induced foci in renal cortex of epithelial vimentin expression and a loss of E-cadherin expression, as signs of cellular stress. The cellular changes occurred within high, but physiological aldosterone concentrations. We conclude that aldosterone induces protein accumulation in distal renal tubules; these aggregates are not cleared by autophagy that may lead to early renal tubular damage.     

Estimation of the Temporal Course of Evoked Secretion of Transmitter Quanta in the Frog Neuromuscular Junction

In experiments on the cutaneothoracic muscle of the frog, we recorded, using the technique of two-electrode voltage clamp at a normal Ca²⁺ concentration (1.8 mM), multiquantum end-plate currents (EPC) and miniature uniquantum EPC (mEPC). Multiquantum signals, when compared with uniquantum currents, were characterized by longer leading and trailing edges. The quantum composition of multiquantum signals estimated according to the ratios of EPC and mEPC amplitudes was, on average, 27% lower than that calculated according to the ratios of their integral values (areas). These data demonstrate that stimulus-evoked transmitter secretion from the motor nerve endings is noticeably asynchronous. Based on the parameters of the experimental EPC and mEPC, we estimated the temporal course of evoked secretion using various techniques: spectral analysis, a system of linear equations, and Van der Kloot's method. Using convolution with uniquantum signals, we found that spectral analysis is the best technique for such estimation. Calculated parameters of the temporal course of secretion were the following: risetime 0.20 msec and decay time constant 0.33 msec. The respective distribution significantly differed from that of the synaptic delays of extracellularly recorded uniquantum EPC by longer durations (150-200%) of the leading and trailing edges. We hypothesize that these differences are related to the geometry of the junction and the temporal sequence of switching on of the active zones in the nerve ending upon their activation by spreading action potentials. Factors influencing the temporal course of evoked secretion of the transmitter in the junction under study (its asynchronicity, in particular) are discussed.     

Fluid Secretion in Rhodnius Upper Malpighian Tubules (UMT): Water Osmotic Permeabilities and Morphometric Studies

We have measured the osmotic permeability of the basolateral cell membrane (Poscb) and compared it with the transepithelial permeability (Poste) to calculate the paracellular (Posp) permeability of the upper malpighian tubules (UMT) of the 5th instar of Rhodnius prolixus under several experimental conditions, namely, at rest and after stimulation to secrete with 5-HT, each under control conditions (no treatment), after treatment with pCMBS, and after addition of pCMBS and DTT. Secretion rate is negligible at rest. During stimulation mean secretion rate is 43.5 nl/cm2 sec. Secretion is severely curtailed by pCMBS and fully restored by DTT. Poscb = 9.4 (resting, control); 5.8 (control + pCMBS); 10.7 (control + pCMBS + DTT); 20.6 (stimulated, control); 14.7 (stimulated + pCMBS); 49.1 (stimulated + pCMBS + DTT) (x10?4 cm3/cm2 sec Osm). Calculated Posp are higher than the transcellular permeability, Posc, at rest and after stimulation. Electron micrograph morphometry of UMT sections show that cells significantly decrease their volume after stimulation. Lateral intercellular space (LIS) and basolateral extracellular labyrinth (BEL) are barely discernible at rest. LIS and BEL are widely dilated in stimulated UMT. Thus, ions have restricted access to the deep and narrow basolateral cell membrane indentations at rest, but they have ready access to cell membrane indentations after stimulation, because of the opening of LIS and BEL. These findings are discussed in relation to isosmotic secretion. The rate-limiting step for paracellular movement is located at the smooth septate junctions.     

A Novel Vasoactive Proline-Rich Oligopeptide from the Skin Secretion of the Frog Brachycephalus ephippium

Proline-rich oligopeptides (PROs) are a large family which comprises the bradykinin-potentiating peptides (BPPs). They inhibit the activity of the angiotensin I-converting enzyme (ACE) and have a typical pyroglutamyl (Pyr)/proline-rich structure at the N- and C-terminus, respectively. Furthermore, PROs decrease blood pressure in animals. In the present study, the isolation and biological characterization of a novel vasoactive BPP isolated from the skin secretion of the frog Brachycephalus ephippium is described. This new PRO, termed BPP-Brachy, has the primary structure WPPPKVSP and the amidated form termed BPP-BrachyNH₂ inhibits efficiently ACE in rat serum. In silico molecular modeling and docking studies suggest that BPP-BrachyNH₂ is capable of forming a hydrogen bond network as well as multiple van der Waals interactions with the rat ACE, which blocks the access of the substrate to the C-domain active site. Moreover, in rat thoracic aorta BPP-BrachyNH₂ induces potent endothelium-dependent vasodilatation with similar magnitude as captopril. In DAF-FM DA-loaded aortic cross sections examined by confocal microscopy, BPP-BrachyNH₂ was found to increase the release of nitric oxide (NO). Moreover, BPP-BrachyNH₂ was devoid of toxicity in endothelial and smooth muscle cell cultures. In conclusion, the peptide BPP-BrachyNH₂ has a novel sequence being the first BPP isolated from the skin secretion of the Brachycephalidae family. This opens for exploring amphibians as a source of new biomolecules. The BPP-BrachyNH₂ is devoid of cytotoxicity and elicits endothelium-dependent vasodilatation mediated by NO. These findings open for the possibility of potential application of these peptides in the treatment of endothelial dysfunction and cardiovascular diseases.     

The Structures of the Frenatin Peptides from the Skin Secretion of the Giant Tree Frog Litoria Infrafrenata

The granular dorsal glands of the giant tree frog Litoria infrafrenata contain five peptides including caerulein (a known neuropeptide), and four new peptides named frenatins 1 (MH⁺ = 1140 Da), 2 (1423), 3 (2180) and 4 (2493). The amino acid sequences of the frenatins are detailed: their structures do not correspond to those of peptides isolated from other amphibians or animals. Frenatin 3, Gly-Leu-Met-Ser-Val-Leu-Gly-His-Ala-Val-Gly-Asn-Val-Leu-Gly- Gly-Leu-Phe-Lys-Pro-Lys-Ser-(OH), has wide spectrum antimicrobial properties.     

Odorous and Non-Fatal Skin Secretion of Adult Wrinkled Frog (Rana rugosa) Is Effective in Avoiding Predation by Snakes

The roles played by nonfatal secretions of adult anurans in the avoidance of predation remain unknown. The adult Wrinkled frog (Rana rugosa) has warty skin with the odorous mucus secretion that is not fatal to the snake Elaphe quadrivirgata. We fed R. rugosa or Fejervarya limnocharis, which resembles R. rugosa in appearance and has mucus secretion, to snakes and compared the snakes’ responses to the frogs. Compared to F. limnocharis, R. rugosa was less frequently bitten or swallowed by snakes. The snakes that bit R. rugosa spat out the frogs and showed mouth opening (gaping) behavior, while the snakes that bit F. limnocharis did not show gaping behavior. We also compared the responses of the snakes to R. rugosa and F. limnocharis secretions. We coated palatable R. japonica with secretions from R. rugosa or F. limnocharis. The frogs coated by R. rugosa secretion were less frequently bitten or swallowed than those coated by F. limnocharis secretion. We concluded that compared to different frog species of similar sizes, the adult R. rugosa was less frequently preyed upon by, and that its skin secretion was effective in avoiding predation by snakes.     

Gastric Acid Secretion in Chronic Uraemia and after Renal Transplantation

In 45 patients with chronic uraemia the basal acid output was the same as in 22 controls. Maximal acid output in uraemic patients was less than in the controls but not significantly so. In uraemia the maximal acid output was directly related to the duration of uraemia and inversely related to both haemoglobin level and age; it was not related to the height of the blood urea. Neutralization of gastric acid by ammonia probably occurred in the basal juice, but not when acid secretion was maximally stimulated. The presence of secondary hyperparathyroidism was associated with a 50% increase in the maximal acid output, but the increase may have been due to the younger age of this group.Successful renal transplantation was followed in two out of seven patients by a considerable increase in acid output and both patients showed evidence of peptic ulceration.     

Purification and cDNA Cloning of Antimicrobial Peptides from the Skin Secretion of the Chinese Frog Rana chensinensis

The skin secretions of amphibians are a rich source of bioactive peptides. We isolated chensirin-1 and chensirin-2 from the skin secretion of the Chinese frog Rana chensinensis. Sephadex-G-50 and RP-HPLC were employed to purify these peptides. The amino acid sequences of these peptides were VLPLVGNLLNDLLGE and IIPLPLGYFAKKT, respectively, as determined by Edman degradation. The molecular weights were 1578.7 and 1460.8 Da, respectively, as analyzed by HPLC-ESI-MS. The chensirin cDNA was cloned by 5′ and 3′ amplification of cDNA ends, synthesized and purified. The antibacterial activities of the chensirins were tested using minimum inhibitory concentration, the results indicated that chensirins inhibit the growth of gram-negative and gram-positive bacteria. Among them, chensirin-1 is a novel peptide with a higher antibacterial activity compared to other similar antimicrobial peptides. These low molecular weight peptides with good antimicrobial efficacy are considered potential sources for developing new antimicrobial agents to improve traditional drug resistance.

     

Mitochondrial and Metabolic Dysfunction in Renal Convoluted Tubules of Obese Mice: Protective Role of Melatonin

Obesity is a common and complex health problem, which impacts crucial organs; it is also considered an independent risk factor for chronic kidney disease. Few studies have analyzed the consequence of obesity in the renal proximal convoluted tubules, which are the major tubules involved in reabsorptive processes. For optimal performance of the kidney, energy is primarily provided by mitochondria. Melatonin, an indoleamine and antioxidant, has been identified in mitochondria, and there is considerable evidence regarding its essential role in the prevention of oxidative mitochondrial damage. In this study we evaluated the mechanism(s) of mitochondrial alterations in an animal model of obesity (ob/ob mice) and describe the beneficial effects of melatonin treatment on mitochondrial morphology and dynamics as influenced by mitofusin-2 and the intrinsic apoptotic cascade. Melatonin dissolved in 1% ethanol was added to the drinking water from postnatal week 5–13; the calculated dose of melatonin intake was 100 mg/kg body weight/day. Compared to control mice, obesity-related morphological alterations were apparent in the proximal tubules which contained round mitochondria with irregular, short cristae and cells with elevated apoptotic index. Melatonin supplementation in obese mice changed mitochondria shape and cristae organization of proximal tubules, enhanced mitofusin-2 expression, which in turn modulated the progression of the mitochondria-driven intrinsic apoptotic pathway. These changes possibly aid in reducing renal failure. The melatonin-mediated changes indicate its potential protective use against renal morphological damage and dysfunction associated with obesity and metabolic disease.     

Site-specific Expression of IQGAP1, a Key Mediator of Cytoskeleton, in Mouse Renal Tubules

IQGAP1 is a multifunctional junction molecule that is involved in cell migration, proliferation, differentiation, cell polarity, and cell–cell adhesion. It is highly expressed in the kidney and has recently been identified in the glomerular basement membrane as a nephrin-associated protein. However, the distribution of IQGAP1 in renal tubular epithelial cells is unknown. We performed confocal microscopic studies to localize IQGAP1 in each nephron segment using dual immunofluorescence staining with various antibodies against segment-specific markers. We found that IQGAP1 was strongly expressed in the distal convoluted tubule (DCT), collecting duct, and macula densa and moderately in the thick ascending limb and proximal tubule. In the DCT, the IQGAP1–F-actin complex forms a comb-like structure with multiple parallel spikes sitting on the basal membrane. In the macula densa cells, IQGAP1 is strongly expressed in the apical membrane, whereas in type A intercalated cells, IQGAP1 is expressed in the basolateral membrane, where it colocalizes with anion exchanger 1, and in principal cells, it is diffusely expressed. In conclusion, we showed the expression and subcellular localization of IQGAP1 in various nephron segments. The site-specific expression pattern of this potent modulator of multiple biological pathways in the renal tubules suggests that IQGAP1 may have multiple important roles in various renal functions. (J Histochem Cytochem 56:659–666, 2008)