Macrophage migration inhibitory factor promotes cyst growth in polycystic kidney disease

Autosomal dominant polycystic kidney disease (ADPKD) is characterized by renal cyst formation, inflammation, and fibrosis. Macrophages infiltrate cystic kidneys, but the role of these and other inflammatory factors in disease progression are poorly understood. Here, we identified macrophage migration inhibitory factor (MIF) as an important regulator of cyst growth in ADPKD. MIF was upregulated in cyst-lining epithelial cells in polycystin-1–deficient murine kidneys and accumulated in cyst fluid of human ADPKD kidneys. MIF promoted cystic epithelial cell proliferation by activating ERK, mTOR, and Rb/E2F pathways and by increasing glucose uptake and ATP production, which inhibited AMP-activated protein kinase signaling. MIF also regulated cystic renal epithelial cell apoptosis through p53-dependent signaling. In polycystin-1–deficient mice, MIF was required for recruitment and retention of renal macrophages, which promoted cyst expansion, and Mif deletion or pharmacologic inhibition delayed cyst growth in multiple murine ADPKD models. MIF-dependent macrophage recruitment was associated with upregulation of monocyte chemotactic protein 1 (MCP-1) and inflammatory cytokine TNF-α. TNF-α induced MIF expression, and MIF subsequently exacerbated TNF-α expression in renal epithelial cells, suggesting a positive feedback loop between TNF-α and MIF during cyst development. Our study indicates MIF is a central and upstream regulator of ADPKD pathogenesis and provides a rationale for further exploration of MIF as a therapeutic target for ADPKD.     

Autosomic dominant polycystic kidney disease and metformin: Old knowledge and new insights on retarding progression of chronic kidney disease

Autosomal dominant polycystic kidney disease (ADPKD) is the most common congenital kidney disorder, generally caused by mutations in the PKD1 and PKD2 genes, coding for polycystins 1 and 2. Its pathogenesis is accompanied by alterations of the cAMP, mTOR, MAPK/ERK, and JAK/STAT pathways. ADPKD is clinically characterized by the formation of many growing cysts with kidney enlargement and a progressive damage to the parenchyma, up to its complete loss of function, and the onset of end-stage renal disease (ESRD). The current aim of ADPKD therapy is the inhibition of cyst development and retardation of chronic kidney disease progression. Several drugs have been recently included as potential therapies for ADPKD including metformin, the drug of choice for the treatment of type 2 diabetes mellitus, according to its potential inhibitory effects on cystogenesis. In this review, we summarize preclinical and clinical evidence endorsing or rejecting metformin administration in ADPKD evolution and pathological mechanisms. We explored the biology of APDKD and the role of metformin in slowing down cystogenesis searching PubMed and Clinical Trials to identify relevant data from the database inception to December 2020. From our research analysis, evidence for metformin as emerging cure for ADPKD mainly arise from preclinical studies. In fact, clinical studies are still scanty and stronger evidence is awaited. Its effects are likely mediated by inhibition of the ERK pathway and increase of AMPK levels, which are both linked to ADPKD pathogenesis.     

Effect of statin therapy on disease progression in pediatric ADPKD: design and baseline characteristics of participants

Autosomal dominant polycystic kidney disease (ADPKD) is the most common genetic kidney condition and is associated with important renal and cardiovascular manifestations in childhood. Renal cystic disease can be documented in some cases as early as in utero. Early intervention is critical if the long-term complications of this condition, including end-stage renal disease, are to be ameliorated. Here we describe our ongoing randomized double-blind placebo-controlled phase III clinical trial to assess the effect of pravastatin treatment on renal and cardiovascular disease progression in 107 children and young adults age 8-22 years with ADPKD who are receiving the angiotensin converting enzyme inhibitor lisinopril. Baseline demographic and laboratory data are provided. Results of this study could markedly impact the standard of care for evaluation and treatment of ADPKD in this population.     

Unilateral renal cystic disease in an adult

Unilateral renal cystic disease (URCD) is a rare, nonfamilial, nonprogressive, unilateral cystic disorder of the kidney. Very few adults with this condition have been documented [1–4]. We describe a case with a 30 year radiologic follow-up. Absence of a family history of cystic renal disease, benign clinical course through adulthood, and limitation of the process to one kidney distinguish this condition from asymmetric autosomal dominant polycystic kidney disease (ADPKD).     

Sirtuin 1 inhibition delays cyst formation in autosomal-dominant polycystic kidney disease

Autosomal-dominant polycystic kidney disease (ADPKD) is caused by mutations in either PKD1 or PKD2 and is characterized by the development of multiple bilateral renal cysts that replace normal kidney tissue. Here, we used Pkd1 mutant mouse models to demonstrate that the nicotinamide adenine dinucleotide–dependent (NAD-dependent) protein deacetylase sirtuin 1 (SIRT1) is involved in the pathophysiology of ADPKD. SIRT1 was upregulated through c-MYC in embryonic and postnatal Pkd1-mutant mouse renal epithelial cells and tissues and could be induced by TNF-α, which is present in cyst fluid during cyst development. Double conditional knockouts of Pkd1 and Sirt1 demonstrated delayed renal cyst formation in postnatal mouse kidneys compared with mice with single conditional knockout of Pkd1. Furthermore, treatment with a pan-sirtuin inhibitor (nicotinamide) or a SIRT1-specific inhibitor (EX-527) delayed cyst growth in Pkd1 knockout mouse embryonic kidneys, Pkd1 conditional knockout postnatal kidneys, and Pkd1 hypomorphic kidneys. Increased SIRT1 expression in Pkd1 mutant renal epithelial cells regulated cystic epithelial cell proliferation through deacetylation and phosphorylation of Rb and regulated cystic epithelial cell death through deacetylation of p53. This newly identified role of SIRT1 signaling in cystic renal epithelial cells provides the opportunity to develop unique therapeutic strategies for ADPKD.     

常染色体显性多囊肾病的预后评估及治疗

常染色体显性多囊肾病(autosomal dominant polycystic kidney disease, ADPKD)患病率为1‰~2‰, 属于罕见病, 临床主要表现为双侧肾囊肿且逐渐发展, 肾脏体积进行性增大, 肾功能逐步降低。PKD1基因突变约占81%, PKD2基因突变约占10.5%~22%。血管加压素(arginine vasopressin, AVP)和环磷酸腺苷(cyclic adenosine monophosphate, cAMP)信号通路在ADPKD囊肿发展过程中发挥重要作用。近年来发表的梅奥风险评估模型和PROPKD(predicting renal outcome in polycystic kidney disease)评分是ADPKD较好的预后评估模型, 已成为临床医生决策的重要依据。通过拮抗AVP受体, 抑制cAMP通路的托伐普坦已成为ADPKD首个特异治疗药物, 可有效抑制总肾脏体积的增长和保护肾功能。药物的长期安全性仍需进一步研究。     

CT与SPECT在常染色体显性多囊肾治疗中的应用

目的 探讨CT与SPECT在常染色体显性多囊肾(ADPKD)治疗中的作用.方法 回顾性分析89例ADPKD患者的病历资料,观察各期患者术前CT表现特点及术前、术后SPECT肾动态显像的变化.结果 患者术前CT显示双肾体积增大,肾实质内多发大小不等的囊性低密度影,增强扫描后肾盂与囊肿对比明显.SPECT肾动态显像结果显示Ⅰ、Ⅱ、Ⅲ期患者术前肾小球滤过率(GFR)分别为(49.47±9.93)ml/min、(30.59±8.16)ml/min、(14.84±6.22)ml/min,术后分别为(52.14±8.67)ml/min、(43.77±9.33)ml/min、(14.65±5.61)ml/min.Ⅱ期患者术后GFR显著高于术前(P<0.05),Ⅰ、Ⅲ期患者术后GFR与术前相比,差异无统计学意义(P>0.05).结论 联合应用CT及SPECT有利于掌握肾脏形态及功能的综合信息,选择最佳手术时机及合理治疗方案.     

Identification and localization of polycystin,the PKD1 gene product.

Polycystin, the product of autosomal dominant polycystic kidney disease (ADPKD) 1 gene (PKD1) is the cardinal member of a novel class of proteins. As a first step towards elucidating the function of polycystin and the pathogenesis of ADPKD, three types of information were collected in the current study: the subcellular localization of polycystin, the spatial and temporal distribution of the protein within normal tissues and the effects of ADPKD mutations on the pattern of expression in affected tissues. Antisera directed against a synthetic peptide and two recombinant proteins of different domains of polycystin revealed the presence of an approximately 400-kD protein (polycystin) in the membrane fractions of normal fetal, adult, and ADPKD kidneys. Immunohistological studies localized polycystin to renal tubular epithelia, hepatic bile ductules, and pancreatic ducts, all sites of cystic changes in ADPKD, as well as in tissues such as skin that are not known to be affected in ADPKD. By electron microscopy, polycystin was predominantly associated with plasma membranes. Polycystin was significantly less abundant in adult than in fetal epithelia. In contrast, polycystin was overexpressed in most, but not all, cysts in ADPKD kidneys.     

Pkd1 regulates immortalized proliferation of renal tubular epithelial cells through p53 induction and JNK activation

Autosomal dominant polycystic kidney disease (ADPKD) is the most common human monogenic genetic disorder and is characterized by progressive bilateral renal cysts and the development of renal insufficiency. The cystogenesis of ADPKD is believed to be a monoclonal proliferation of PKD-deficient (PKD(-/-)) renal tubular epithelial cells. To define the function of Pkd1, we generated chimeric mice by aggregation of Pkd1(-/-) ES cells and Pkd1(+/+) morulae from ROSA26 mice. As occurs in humans with ADPKD, these mice developed cysts in the kidney, liver, and pancreas. Surprisingly, the cyst epithelia of the kidney were composed of both Pkd1(-/-) and Pkd1(+/+) renal tubular epithelial cells in the early stages of cystogenesis. Pkd1(-/-) cyst epithelial cells changed in shape from cuboidal to flat and replaced Pkd1(+/+) cyst epithelial cells lost by JNK-mediated apoptosis in intermediate stages. In late-stage cysts, Pkd1(-/-) cells continued immortalized proliferation with downregulation of p53. These results provide a novel understanding of the cystogenesis of ADPKD patients. Furthermore, immortalized proliferation without induction of p53 was frequently observed in 3T3-type culture of mouse embryonic fibroblasts from Pkd1(-/-) mice. Thus, Pkd1 plays a role in preventing immortalized proliferation of renal tubular epithelial cells through the induction of p53 and activation of JNK.     

Activation of the right ventricular endothelin (ET) system in the monocrotaline model of pulmonary hypertension: response to chronic ETA receptor blockade

Although activation of the endothelin (ET) system contributes to pulmonary hypertension, modifications of the cardiopulmonary ET system and its responses to chronic ET receptor blockade are not well known. To investigate this, rats were injected with monocrotaline (60 mg/kg intraperitoneal) or saline, followed with treatment with the selective ETA receptor antagonist LU135252 (LU; 50 mg.kg(-1).day(-1)) or with saline. After 3 weeks, haemodynamics, cardiac hypertrophy, ET-1 levels and cardiopulmonary ET-receptor-binding profile were evaluated. Monocrotaline (n =7) elicited marked pulmonary hypertension and right ventricular hypertrophy compared with controls (n =8). Both variables were substantially attenuated by LU therapy (n =8; P <0.05 for both). After monocrotaline, right ventricular ET-1 levels were more significantly increased than in the left ventricle (+198% compared with +127%; P <0.05). ETB receptor density was augmented (3-fold) in the right ventricle, whereas that of ETA receptors was not affected. LU treatment also significantly attenuated these alterations (P <0.05). In the lungs, ET-1 levels were not increased after monocrotaline, whereas the balance of ETB to ETA receptors was altered, with a trend toward a lower percentage of ETB than in the control rats. LU treatment did not affect these variables in the lungs. Therefore monocrotaline-induced pulmonary hypertension and right ventricular hypertrophy are associated with the up-regulation of ET-1 and ETB receptors in the right ventricle. These alterations are attenuated with the reduction of pulmonary hypertension and right ventricular hypertrophy after chronic blockade of the ETA receptors, supporting the role of the ET system in right ventricular hypertrophy.     

彩色多普勒超声对多囊肾患者肾脏血流的研究

目的　为了探讨常染色体显性多囊肾病 (autosomal dominantpolycystic kidney disease,ADPKD)对患者肾脏血流的影响 ,采用彩色多普勒超声测定血管的平均峰值流速 (Vmax、 Vmin)、阻力指数 (RI) ,确定肾脏血流与肾功能的关系以及囊肿大小与肾脏血流的关系。方法　选取 4 2例 ADPKD患者 ,以 4 5例正常人作为对照组。彩色多普勒超声测定双侧肾动脉 ,囊肿周边叶间动脉的最大、最小峰值流速和阻力指数。常规测定受试者的血清肌酐、尿素氮以及肌酐清除率。结果　 (1)多囊肾病组 (包括肾功能正常和异常组 )肾动脉平均峰值流速低于正常对照组 ,两者相比有明显差异 (P<0 .0 1) ;(2 )肾功能正常的多囊肾病组 RI较正常对照组升高 ,且具有统计学意义 (P<0 .0 5 ) ;(3)肾功能异常的多囊肾病组 RI较正常对照组升高 ,两者相比有明显差异 (P<0 .0 1) ;(4) RI与患者的肾功能呈正相关。结论　彩色多普勒超声检测能提示 ADPKD患者的肾脏血流情况 ,较肾功能测定更为敏感 ,为临床评价肾血流状态及疾病的转归、疗效的判定提供了一种新方法。     

Effects of endothelin-A receptor antagonism on bilateral renal function in renovascular hypertensive rats

Recent studies indicated an enhanced expression of Endothelin (ET) in the kidney contralateral to the vascular clip in two-kidney, one-clip (2K-1C) Goldblatt hypertension. We proposed that the enhanced intrarenal ET production might be responsible for altered haemodynamic and excretory capability of the unclipped kidney (UK) of 2K-1C renovascular hypertensive rats. Therefore, we examined the changes in arterial pressure and split renal function in the clipped (CK) and UK simultaneously, in response to chronic administration of the selective ETA receptor blocker (A-127722), given orally at a dose of 30 mg/kg/day for 3 weeks starting from the beginning of the 4th week of clipping. Systolic pressure averaged 177 +/- 7 mmHg in control rats (n=15) and 164 +/- 9 mmHg in treated rats (n=16) and the difference was not statistically different. Glomerular filtration rate (GFR), renal plasma flow (RPF) and renal vascular resistance (RVR) in the UK were not different between control and treated groups. Data were then analyzed by classifying rats as moderate hypertensives (MAP < 180 mmHg), and severe hypertensives (MAP > 180 mmHg). In the moderately hypertensive group, average MAP was 143 +/- 5 mmHg and 138 +/- 4 mmHg in control (n=9) and treated (n=10) groups, respectively. In the severely hypertensive group, average MAP was 192 +/- 5 mmHg and 188 +/- 5 mmHg in control (n=6) and treated (n=6) groups, respectively. GFR and RPF were significantly improved in the UK of only the severely hypertensives who received the antagonist. However, the ET(A) antagonist blunted the sodium loss in both CK and UK of severely hypertensive rats. We conclude that ET(A) receptors do not play a role in the progression of hypertension in 2K-1C renovascular hypertensive rats. Yet, ET(A) receptors play an important role in altering renal hemodynamics of the unclipped kidneys in severe degrees of renovascular hypertension.     

Endothelin peptides: biological activities, cellular signalling and clinical significance.

Endothelins (ET-1, ET-2 and ET-3) are a family of 21 amino acid peptides produced by endothelial cells. They are thought to regulate the local vasomotor tone with endothelium-derived relaxing factors. ETs are the most potent vasoconstrictor substances yet identified and veins and renal vasculature are the most sensitive targets. They reduce cardiac output and have positive inotropic and chronotropic effects. ETs increase the secretion of atrial natriuretic peptide (ANP), aldosterone and catecholamines but reduce renal blood flow and glomerular filtration and they also have mitogenic properties. ETs bind to receptors (ETA and ETB), activate phospholipase C, modulate intracellular Ca2+ concentration and open Ca2+ channels. Vasoactive agents (adrenaline, angiotensin, vasopressin, thrombin, endotoxins) and hypoxia stimulate the release of ET and also ET gene expression. Raised concentrations of plasma ET have been found to occur in several clinical conditions such as hypertension, myocardial infarction, cardiogenic shock, pregnancy induced hypertension, arteriosclerosis, Raynaud's disease, subarachnoid haemorrhage, uraemia, ulcerative colitis, Crohn's disease and surgical operations suggesting that ETs have a role in several patophysiological processes.     

Abdominal sonographic study of autosomal dominant polycystic kidney disease

PURPOSE: The purpose of this study was to determine whether kidney size in patients who have autosomal dominant polycystic kidney disease (ADPKD) is related to renal function, hypertension, or extrarenal manifestations of the disease and to sonographically evaluate the abdominal manifestations of ADPKD. METHODS: Between 1994 and 1998, 400 individuals from 85 families with a history of ADPKD were examined. There were 213 persons with ADPKD and 187 unaffected family members; there were 182 males and 218 females, 1-82 years old (mean, 39.3 years). We obtained a complete medical history, performed a physical examination, measured the arterial blood pressure and serum creatinine levels, and performed abdominal sonography on each subject. The sonographic features that were studied were renal length and the presence and number of cysts on the kidneys, liver, and pancreas. RESULTS: There was a relationship between kidney size and age (p < 0.05), kidney size and renal function (p < 0.001), and kidney size and hypertension (p < 0.001). The overall prevalence of hepatic cysts in patients with ADPKD was 67%, and the prevalence increased with age. The presence of hepatic cysts was related to the severity of renal disease. Females had more severe polycystic liver disease, and massive polycystic liver disease (ie, hepatomegaly with innumerable cysts) was seen only in females. The prevalence of pancreatic cysts in the 187 persons in whom the pancreas was well evaluated sonographically was 5%. CONCLUSIONS: Kidney size in patients with ADPKD is related to renal function, hypertension, and extrarenal involvement and can be used to predict the outcome of the disease. Hepatic cysts are very common in patients with ADPKD and are related to age and renal function; pancreatic cysts are infrequent in these patients.     

Pharmacological properties of J-104132 (L-753,037), a potent, orally active, mixed ETA/ETB endothelin receptor antagonist.

J-104132 [(+)-(5S,6R, 7R)-2-butyl-7-[2-((2S)-2-carboxypropyl)-4-methoxyphenyl]-5-(3, 4-methylenedioxyphenyl)cyclopenteno[1,2-b]pyridine-6-carboxylic; also referred to as L-753,037] is a potent, selective inhibitor of ETA and ETB endothelin (ET) receptors (e.g., Ki: cloned human ETA = 0.034 nM; cloned human ETB = 0.104 nM). In both ligand-binding and isolated tissue preparation protocols, the inhibition of ET receptors with J-104132 is reversible and competitive. In vitro, J-104132 is a potent antagonist of ET-1-induced accumulation of [3H]inositol phosphates in Chinese hamster ovary cells stably expressing cloned human ETA receptors (IC50 = 0.059 nM), ET-1-induced contractions in rabbit iliac artery (pA2 = 9.70) and of BQ-3020-induced contractions in pulmonary artery (pA2 = 10.14). J-104132 is selective for ET receptors because it had no effect on contractions elicited by norepinephrine or KCl in the vascular preparations. The in vivo potency of J-104132 was assessed using challenges with exogenous ET-1. In conscious mice, 5 nmol/kg i.v. ET-1 causes death. Pretreatment with J-104132 prevents the lethal response to ET-1 when administered i.v. (ED50 = 0.045 mg/kg) or p.o. in fed animals (ED50 = 0.35 mg/kg). In conscious, normotensive rats, pressor responses to 0.5 nmol/kg i.v. ET-1 are inhibited by J-104132 after i.v. (0.1 mg/kg) or p.o. (1 mg/kg) administration. In anesthetized dogs, ET-1 was administered directly into the renal artery or brachial artery to generate dose-response (blood flow) curves, and the inhibitory potency of J-104132 (i.v. infusion) was quantified. J-104132 produced greater than 10-fold shifts in the ET-1 dose-response curves at 0.03 mg/kg/h (renal) and 0.3 mg/kg/h (brachial). Oral bioavailability of J-104132 in rats was approximately 40%. These studies indicate that J-104132 is a selective, potent, orally active antagonist of both ETA and ETB receptors and is an excellent pharmacological tool to explore the therapeutic use of a mixed ETA/ETB receptor antagonist.     

Diagnosis of autosomal dominant polycystic kidney disease in utero and in the young infant

Autosomal dominant polycystic kidney disease (ADPKD), once thought to be a disease of the adult, is now being reported with increasing frequency in childhood. We report five cases and review eight cases from the literature of ADPKD diagnosed in the fetus or the young infant by sonographic evaluation and a positive family history. Renal enlargement (85%) was the most common and most helpful sonographic finding. Approximately 50% of the patients already had cysts large enough to detect by ultrasound. Increased renal echogenicity was present in nine of 10 cases. Although every case in this review had one parent affected with ADPKD, only five of 13 (38%) were aware of their disease prior to their pregnancy. Renal cystic disease diagnosed in the fetus and young infant should trigger an investigation of the family history and sonographic screening.     

Siglec-F–expressing neutrophils are essential for creating a profibrotic microenvironment in renal fibrosis

The roles of neutrophils in renal inflammation are currently unclear. On examining these cells in the unilateral ureteral obstruction murine model of chronic kidney disease, we found that the injured kidney bore a large and rapidly expanding population of neutrophils that expressed the eosinophil marker Siglec-F. We first verified that these cells were neutrophils. Siglec-F⁺ neutrophils were recently detected in several studies in other disease contexts. We then showed that a) these cells were derived from conventional neutrophils in the renal vasculature by TGF-β1 and GM-CSF; b) they differed from their parent cells by more frequent hypersegmentation, higher expression of profibrotic inflammatory cytokines, and notably, expression of collagen 1; and c) their depletion reduced collagen deposition and disease progression, but adoptive transfer increased renal fibrosis. These findings have thus unveiled a subtype of neutrophils that participate in renal fibrosis and a potentially new therapeutic target in chronic kidney disease.     

Endothelin receptor selectivity in chronic renal failure

Chronic kidney diseases are increasing worldwide at an alarming rate, and they are emerging as a major public health problem. Treatments that slow the progression of chronic kidney disease are needed. Endothelin-1 (ET-1) is a potent vasoconstrictor with proinflammatory, mitogenic and profibrotic effects that is closely involved in both normal renal physiology and pathology. Increasing evidence suggests that ET-1 and its cognate receptors are involved in a variety of progressive renal disorders to the extent that renal ET-1 expression correlates with disease severity and renal function impairment. Endothelin receptor antagonists have been used in renoprotection studies owing to their capacity of improving renal hemodynamics and reducing proteinuria. Whether selective ET_A or non-selective ET_A/ET_B receptor antagonists are preferable is still a matter of debate. As angiotensin II blockers are not invariably effective in retarding disease progression when treatment is started late in the course of the disease, it is foreseeable that an ET-1 antagonist in addition to angiotensin-converting enzyme inhibitors could represent a combined treatment for progressive nephropathies. The focus of this review is to examine the role endothelin-1 plays in kidney diseases and to determine the ideal setting for antagonizing its biological activity in chronic nephropathies.     

University of Miami Division of Clinical Pharmacology Therapeutic Rounds: managing hypertension in patients with kidney disease-implications for preservation of renal function

Renal parenchymal hypertension is defined as hypertension caused by disease of the kidneys. Impaired renal sodium excretion leading to extracellular fluid volume (ECFV) expansion is the most clinically important mechanism leading to hypertension in patients with kidney disease. Most patients with renal parenchymal hypertension have sodium-sensitive hypertension, and, consequently, sodium restriction and loop diuretics constitute the initial steps in effective antihypertensive therapy in patients with renal disease. The loop diuretics (furosemide, ethacrynic acid, bumetanide, torasemide) are used for the management of ECFV and hypertension in patients with renal disease because thiazide diuretics are generally not effective in patients with serum creatinine values above 2.0 mg/dL or creatinine clearances below 30 mL/min. The Joint National Committee VI recommends the use of angiotensin-converting enzyme (ACE) inhibitors in patients with hypertension and chronic renal disease to control hypertension and to slow progressive renal failure. Antihypertensive treatment with ACE inhibitors may favorably alter renal hemodynamics, thereby slowing the progression of renal dysfunction. ACE inhibitors have been found to be useful agents in preventing the progression of renal disease in the settings of established insulin-dependent diabetes mellitus (IDDM) nephropathy, non-insulin-dependent diabetes mellitus (NIDDM) nephropathy, IDDM patients with normal blood pressures and microalbuminuria, NIDDM patients with microalbuminuria and normal renal function, and a variety of non-diabetic renal diseases, especially in the setting of significant proteinuria. Calcium antagonists are effective for treating hypertensive patients with chronic renal impairment, and the initial results for calcium antagonists and for combination calcium antagonist-ACE inhibitor therapy have been encouraging. Although promising, the calcium antagonists and the new angiotensin II antagonists have not been studied as intensively as ACE inhibitors in regard to their ability to slow the progression of renal insufficiency.     

Molecular complexes formed with polycystins

Polycystins are a family of novel transmembrane proteins with at least six members already identified in humans. Defects in polycystins-1 and -2 are responsible for nearly all cases of autosomal-dominant polycystic kidney disease (ADPKD), a major cause of end-stage renal failure. With the progress made in elucidating the genetic basis of ADPKD, the challenges are to understand the functions of polycystins and to delineate the biochemical and cellular mechanisms of cyst development and progression. In this review, we summarize the recent advances in our knowledge of the functions of polycystins with emphasis on the molecular composition of polycystin protein complexes in the kidney.