Characterization of steroid 21-hydroxylase gene mutations in a oligosymptomatic form of congenital adrenal hyperplasia: family study

BACKGROUND: 21-hydroxilase deficiency accounts for over 90% of all cases of congenital adrenal hyperplasia (CAH). There is a non-negligible incidence of both severe and nonclassical forms of this genetic disorder. Enzyme deficiency is due to mutations in the gene encoding adrenal 21-hydroxylase (named CYP 21B) and is inherited in an autosomical recesive way. Complete or partial impairment of enzyme activity has been correlated with the different clinical forms of the disease. PATIENTS AND METHODS: In the present paper CYP 21B gene analysis results obtained in a family with two kindred affected by a nonclassical form of the disease are shown. Clinical assessment of these two kindred showed a very mild form of the disease, whereas biochemical results suggested a late-onset partial 21-hydroxylase deficiency. Genotyping for deletions and 10 point mutations in the CYP 21B gene was performed by Southern blot analysis and polymerase chain reaction (PCR) allele-specific oligonucleotide (ASO) hybridation technique. RESULTS: Molecular genetic analysis performed in the two affected patients and two further relatives allowed us to detect the presence of different mutations in the two alleles of the CYP 21B gene. One of these mutations was severe (655G) and came from maternal line, whereas the other was mild (Val281Leu) and originated in paternal line. CONCLUSION: Molecular genetic analysis allows the possibility of finding severe (and non-expected) mutations in patients with clinically mild and late-onset forms of the 21-hydroxylase deficiency.     

Comprehensive analytical strategy for mutation screening in 21-hydroxylase deficiency

Congenital adrenal hyperplasia (CAH) is an autosomal recessive disease with a wide range of clinical manifestations. It is most often caused by deficiency of steroid 21-hydroxylase, reflecting any of a wide range of mutations in the 21-hydroxylase (CYP21) gene. A major challenge in molecular diagnostics of CAH is the high homology between the CYP21 gene and the CYP21P pseudogene and the phenomenon of apparent gene conversion, which inactivates the functional gene. In this study we devised an improved stepwise diagnostic procedure involving nonradioactive Southern blotting and direct DNA sequencing. This strategy led to a successful elucidation of the molecular cause of the disease in 181 out of 182 unrelated alleles in a total of 91 clinically and biochemically characterized patients. We were able to identify all classical known disease-causing mutations of the 21-hydroxylase gene and a novel nonsense mutation (bp 670, A-->C, Y97X). Our method also allows the reliable, secure diagnosis of the heterozygous configuration and may therefore be used for pre-, peri-, and postnatal diagnosis of CAH, even when informative data of the index patient are lacking. Furthermore, it can be used to confirm the diagnosis of CAH in newborns detected in 17-hydroxyprogesterone screening programs.     

A rural diabetes support group

To determine whether nonclassical steroid 21-hydroxylase deficiency in Japan has the same molecular basis as in western countries, we have characterized the mutations of the CYP21 gene in 7 Japanese patients with nonclassical (NC) steroid 21-hydroxylase deficiency. In the Japanese NC cases the P30L was present in one allele in 5 of the 7 patients and on both alleles in one patient. By contrast, the V281L mutation, which was present in about 60% of NC cases in western countries, was not identified in any patient. Among our 7 cases, 4 were detected through neonatal mass screening by a mild increase in serum 17-hydroxyprogesterone (without any symptoms of CAH) at birth, but the 2 cases who were diagnosed as adults were born before nationwide neonatal screening was instituted, so that the Japanese neonatal screening program does detect some cases of NC steroid 21-hydroxylase deficiency. We suggest that P30L mutation is more frequent in Japanese NC CAH than V281L and that the frequency of the mutations causing NC steroid 21-hydroxylase deficiency in Japan might be different from that in western countries.     

Congenital adrenal hyperplasia in pregnancy

The congenital adrenal hyperplasias (CAH) are a group of inherited enzymatic defects of adrenal steroid biosynthesis. Deficiencies of each enzyme required in the steroid biosynthesis pathway are known, and these deficiencies are all inherited as autosomal recessive disorders. During pregnancy, maternal and fetal problems are confined to women who have 21-hydroxylase deficiency (P450c21 deficiency), 11-hydroxylase deficiency (P450c11 deficiency), and 3 beta-hydroxysteroid dehydrogenase deficiency (3 beta HSD deficiency), because other adrenal enzyme deficiencies are not compatible with fertility. The interposition of the placenta on the hypothalamic-pituitary-adrenal axis and other endocrine changes during pregnancy impact considerably on the clinical evaluation of the congenital adrenal hyperplasias. Successful management of CAH in pregnancy requires a firm knowledge of normal adrenal anatomic and endocrine changes that occur during gestation. Women with severe forms of CAH have decreased fertility rates because of oligo-ovulation, and successful conception requires a combination of good therapeutic compliance, careful endocrine monitoring, and often ovulation induction. From a fetal and neonatal standpoint, accurate prenatal diagnosis of 21-hydroxylase deficiency and 11-hydroxylase deficiency is now possible, which allows for prenatal treatment in an attempt to minimize clinical problems in the neonates. Prevention of masculinization of affected female fetuses by corticosteroid suppression has been attempted in both 21-hydroxylase deficiency and 11beta-hydroxylase deficiency CAH, with variable degrees of success. This review provides an overview of the congenital adrenal hyperplasias and their management during pregnancy.     

Adrenal insufficiency in a man with non-classical 21-hydroxylase deficiency: consequence or coincidence?

Deficiency of the adrenal enzyme 21-hydroxylase, which is required for cortisol synthesis, appears in two forms: a rare classical variant with severe enzyme deficiency, usually presenting in neonates with ambiguous genitalia (from androgen overproduction) or adrenal crisis (from glucocorticoid and mineralocorticoid underproduction), and a common (1% of the general population) non-classical variant with mild enzyme deficiency, usually presenting in young adults with findings of androgen excess but without clinical evidence of decreased steroid hormone production. We describe a 22-year-old man who had clinical and biochemical findings consistent with adrenal insufficiency, including a favorable response to hydrocortisone replacement, in whom elevated serum levels of the cortisol precursor 17-hydroxyprogesterone were diagnostic of non-classical 21-hydroxylase deficiency and in whom no other cause of adrenal insufficiency could be identified. These findings raise the possibility that non-classical 21-hydroxylase deficiency, an extremely frequent disorder which is generally thought to be without significant morbidity, might cause or contribute to adrenal insufficiency in adults.     

Uniparental disomy for chromosome 6 results in steroid 21-hydroxylase deficiency: evidence of different genetic mechanisms involved in the production of the disease

Congenital adrenal hyperplasia (CAH) is an inherited recessive disorder of adrenal steroidogenesis caused by mutations in the steroid 21-hydroxylase gene (CYP21) in more than 90% of affected patients. The CYP21 gene is located within the HLA complex locus on chromosome 6 (6p21.3). During a molecular characterisation study of a group of 47 Mexican families with 21-hydroxylase deficiency, we identified nine in which the mutation or mutations found in the patient did not appear to originate from one of the parents. Through DNA fingerprinting, paternity was established in all nine families with a probability of non-paternity in the range of 10(-19) to 10(-23). Among these families, we identified one patient with exclusive paternal inheritance of all eight markers tested on chromosome 6p, despite normal maternal and paternal contributions for eight additional markers on three different chromosomes. We did not identify duplication of paternal information for markers in the 6q region, consistent with lack of expression of transient neonatal diabetes owing to genomic imprinting in this patient. Our results substantiate evidence for the existence of different genetic mechanisms involved in the expression of this recessive condition in a substantial portion (approximately 19%) of affected Mexican families. In addition to the identification of a patient with paternal uniparental disomy, the occurrence of germline mutations may explain the unusual pattern of segregation in the majority of the remaining eight families.     

Hormonal and genetic analysis of a patient with congenital adrenal hyperplasia

We describe a patient with signs and symptoms of virilization caused by 21-hydroxylase deficiency. The patient, a Hispanic woman, first sought medical attention at age 24, when she presented to a medical clinic with an uncomplicated urinary tract infection. At that time several signs of virilization were noted and she was referred to the endocrinology clinic. Evaluation revealed temporal balding, hyperpigmentation, acne, absent breast development, a muscular habitus, and clitoromegaly. Radiological studies revealed bilaterally enlarged adrenal glands and ovaries. Laboratory evaluation revealed markedly increased concentrations of 17-hydroxyprogesterone, androstenedione, and testosterone. The patient was diagnosed with congenital adrenal hyperplasia (CAH) and received hormone therapy. In her sister, encouraged to undergo testing for this autosomal recessive disorder, HLA testing demonstrated that certain haplotypes in this family were associated with CAH. The case highlights key steps in the laboratory diagnosis and genetics of CAH.     

Circulating endotoxin during initial antibiotic treatment of severe gram-negative bacteremic infections

The second most common cause of congenital adrenal hyperplasia is 11 beta-hydroxylase deficiency, an autosomal recessive disorder. We performed genetic analysis of CYP11B1, the gene encoding steroid 11 beta-hydroxylase, in three patients with classic 11 beta-hydroxylase deficiency. Herein we describe the first splice donor site mutation, a new nonsense mutation, and a new missense mutation in this disorder. An African-American patient was found to be a compound heterozygote for a codon 318 + 1G --> A substitution at the 5'-splice donor site of intron 5, in combination with Q356X, a nonsense mutation previously reported in an African-American patient. A Caucasian patient was found to be a compound heterozygote with a novel missense mutation, T318R, in combination with a previously reported 28-bp deletion in exon 2. A different mutation at codon 318 (T318M) has been described previously. A Caucasian patient was heterozygous for a novel nonsense mutation (Q19X) in exon 2. The second mutation was not identified in this patient. Multiple apparent polymorphisms were also observed. Two of these polymorphisms in CYP11B1 represent sequences from CYP11B2, suggesting that gene conversion may have occurred. In summary, we have identified three novel mutations and two previously reported mutations in CYP11B1 patients with 11 beta-hydroxylase deficiency. Our data suggest the presence of a mutational hot spot at codon 318 of CYP11B1, and the possibility of a founder effect in frequently identified mutations.     

The genotype determines the B cell response in mercury-treated mice

Gaucher disease (GD) is an autosomal recessive disorder caused by mutations in the lysosomal beta-glucocerebrosidase (GBA) gene. As the disease is particularly prevalent among Ashkenazi Jews, most studies have been carried out on this ethnic group. In the current study, we present a mutation analysis of the GBA gene in Spanish patients together with the clinical findings. We conducted a systematic analysis in 53 unrelated GD patients. The GBA gene was initially scanned for nine previously described mutations by ASO hybridization or restriction analysis after PCR amplification. The remaining unidentified alleles were screened by nonisotopic PCR-SSCP analysis and sequenced. This approach allowed the identification of 101 of 106 GD alleles (95.3%) involving 24 different mutations, 11 of which are described for the first time: G113E (455G-->A), T134P (517A-->C), G389E (1283G-->A), P391L (1289C-->T), N392I (1292A-->T), Y412H (1351T-->G), W(-4)X (108G-->A), Q169X (662C-->T), R257X (886C-->T), 500insT, and IVS5+1G-->T. Most mutations are present in one or few GD chromosomes. However, two mutations, N370S (1226A-->G) and L444P (1448T-->C), are very frequent and account for 66.1% of the total number of alleles. Linkage disequilibrium was detected between these two mutations and an intragenic polymorphism, indicating that expansion of founder alleles occurred in both cases. Analysis of several microsatellite markers close to the GBA gene allowed us to establish the putative haplotype of the ancestral N370S chromosome.     

CGH-detected DNA sequence copy number amplifications can be confirmed by interphase-FISH: new possiblities for prognostic approaches in oral squamous cell carcinomas

OBJECTIVE: Following the observation of two patients affected by true precocious puberty who went on to develop polycystic ovary syndrome (PCOS) and who were found to be heterozygotes (carriers) for 21-hydroxylase deficiency (21-OHD), we decided to evaluate the frequency of heterozygosity for adrenal 21-OHD in patients with true precocious puberty. STUDY DESIGN: We investigated 32 girls affected by true precocious puberty, by the single-dose ACTH stimulation test, HLA typing and the molecular analysis of the CYP21B gene encoding for the 21-OH enzyme, in order to detect gene deletions or point mutations. Twenty-eight cases were on LHRH analogue treatment and the remaining four, untreated owing to parental refusal, were investigated 0.5-1.5 years after spontaneous menarche. RESULTS: After ACTH testing, 13 out of the 32 (41%) cases displayed higher 17-hydroxyprogesterone (17-OHP) levels than normal but less than those found in patients affected by nonclassical adrenal hyperplasia (CAH); these levels were similar to those observed in obligate heterozygotes for CAH due to 21-hydroxylase deficiency (21-OHD). HLA typing showed a significantly increased frequency of the HLA alleles A28 and B14 which are peculiar to the HLA haplotypes of nonclassical CAH due to 21-OHD. Molecular analysis of the CYP21B gene showed that in four out of the 10 tested patients with an exaggerated 17-OHP response there were heterozygous point mutations of the CYP21B gene. In contrast, no CYP21B gene abnormalities were detected in the eight tested patients with normal 17-OHP. No differences were found between carriers and non-carriers of the 21-OHD with regard to age at onset of precocious puberty, clinical features, bone age acceleration and gonadal suppression induced by LH-RH analogue treatment. Two out of the four untreated patients who were investigated after menarche were found to be carriers of the 21-OHD; these girls showed signs of androgen excess, irregular menses and polycystic ovaries. CONCLUSIONS: A high frequency of heterozygosity for adrenal steroid 21-OHD was found in our patients with true precocious puberty. This adrenal defect does not seem to influence the pattern of central precocious puberty, but these patients require long-term follow-up as they might go on to develop polycystic ovary syndrome (PCOS). Whether or not heterozygosity of the 21-OHD may be related to the premature activation of the hypothalamo-pituitary-gonodal axis remains to be defined.     

Coated oral 5-aminosalicylic acid (Claversal) is equivalent to sulfasalazine for remission maintenance in ulcerative colitis. A double-blind study

A seven year-old boy with non-classic 21-hydroxylase deficiency had transient hormonal evidence of central precocious puberty within three months of beginning glucocorticoid treatment for rapidly progressive somatic virilization. Adrenal-derived sex hormones were normalized promptly by hydrocortisone treatment. GnRH-stimulated LH levels and basal testosterone returned to the prepubertal range without further intervention after six months of glucocorticoid therapy. This is the first report of transient central precocious puberty in the mild non-classic form of congenital adrenal hyperplasia due to 21-hydroxylase deficiency.     

Androgen-related effects on peripheral glucose metabolism in women with congenital adrenal hyperplasia

The study was designed to investigate the influence of androgens on peripheral glucose metabolism in women with congenital adrenal hyperplasia (CAH). Nine normal women and seven women with CAH were studied (4 with the classical form of 21-hydroxylase deficiency [C 21-OH] and 3 with nonclassical 21-hydroxylase deficiency [NC 21-OH]). The study was performed using the forearm model combined with local indirect calorimetry. The insulin level reached 30 minutes after glucose ingestion was significantly greater (p < .05) in patients with CAH. The patients with C 21-OH had elevated androstenedione (A) and testosterone (T) and low DHEA-S and presented a 35% greater insulin response to a glucose stimulus than the control group, area under the curve (AUC) of 9457 +/- 887 vs 6989 +/- 833 microU/ml.3 hours. Patients with NC 21-OH had slightly elevated T, A and DHEA-S and presented an insulin response that was similar to the control group, AUC = 7208 +/- 1935 microU/ml.3 hours. Despite the greater muscle mass of the patients with CAH the forearm glucose uptake during the three hours of the study was lower in these patients than in normal women (CAH = 100.9 +/- 10.0 vs control group = 132.5 +/- 21.2 mg/100 ml forearm). The ratio of insulin response to the increment of forearm glucose uptake over a period of 3 h was significantly higher in patients with CAH (control group = 59.6 +/- 6.5 vs CAH = 98.6 +/- 19.4 microU.ml-1/mg.100 ml forearm-1, p < 0.05). These results suggest that insulin sensitivity is decreased in patients with CAH.(ABSTRACT TRUNCATED AT 250 WORDS)     

Congenital adrenal hyperplasia

A clinical spectrum, varying from prenatal onset to postnatal onset of symptoms, exists in all hyperandrogenic forms of congenital adrenal hyperplasia (CAH). Postnatal onset hyperandrogenic symptoms such as premature pubarche, clitoromegaly, hirsutism, menstrual disorders and infertility are well known manifestations of CAH due to 21-hydroxylase deficiency, 3 beta-hydroxysteroid dehydrogenase deficiency or 11 beta-hydroxylase deficiency. These hyperandrogenic symptoms of CAH are clinically indistinguishable from other causes of hyperandrogenism. The molecular data has proven the genetic basis for the phenotypic variability of CAH disorders. Specific hormonal criterion(a) defined by the molecular proof of the disorder should aid in discriminating between symptomatic patients due to CAH and other causes, and between those with mild and severe CAH disorders. Prevalence of the hyperandrogenic forms of CAH, as well as pubertal maturation and reproductive function in women with hyperandrogenic forms of CAH, are discussed.     

Gene locus for autosomal recessive distal myopathy with rimmed vacuoles maps to chromosome 9

Distal myopathy with rimmed vacuoles is an autosomal recessive muscular disorder, characterized clinically by weakness of the distal muscles in the lower limbs in early adulthood. Recently, the gene locus for familial vacuolar myopathy with autosomal recessive inheritance (hereditary inclusion body myopathy) was mapped to chromosome 9 by genome-wide linkage analysis of nine Persian-Jewish families. Since both disease conditions share similar clinical, genetic, and histopathological features, we analyzed seven families with distal myopathy with rimmed vacuoles using ten microsatellite markers within the region of the hereditary inclusion body myopathy locus. Significantly high cumulative pairwise lod scores were obtained with three markers: D9S248 (Z(max) = 5.90 at theta = 0), D9S43 (Z(max) = 5.25 at theta = 0), and D9S50 (Z(max) = 4.23 at theta = 0). Detection of obligate recombination events as well as multipoint linkage analysis revealed that the most likely location of the distal myopathy with rimmed vacuoles gene is in a 23.3-cM interval defined by D9S319 and D9S276 on chromosome 9. The results raise the possibility that distal myopathy with rimmed vacuoles and hereditary inclusion body myopathy in Persian Jews are allelic diseases.     

Autosomal dominant medullary cystic kidney disease: evidence of gene locus heterogeneity

Autosomal dominant medullary cystic kidney disease (ADMCKD; synonym: medullary cystic disease, MCD) is an autosomal dominant kidney disorder, sharing morphological and clinical features with recessive juvenile nephronophthisis (NPH), such as reduced urinary concentration ability and multiple renal cysts at the corticomedullary junction. While in NPH end-stage renal disease (ESRD) occurs in adolescence, ADMCKD leads to ESRD in adulthood. Recently a gene locus for ADMCKD has been localized to chromosome 1q21 in two large Cypriot families. This prompted us to examine linkage in three ADMCKD-families, using the same set of polymorphic microsatellite markers spanning the critical region on chromosome 1q21. Haplotype analysis revealed that none of the three families showed linkage to this locus, thus demonstrating evidence for genetic locus heterogeneity. Additional linkage analysis studies need to be performed in order to identify further gene loci cosegregating with this autosomal dominant kidney disorder.     

The I1307K APC mutation does not predispose to colorectal cancer in Jewish Ashkenazi breast and breast-ovarian cancer kindreds

An increased incidence of colorectal cancer has been observed in breast and breast-ovarian cancer syndrome families, including those of Ashkenazi origin. Recently, a germ-line missense mutation in the APC gene, I1307K, was identified that may indirectly cause colorectal cancer in Ashkenazi Jews. To determine whether the excess of colon cancer in some breast-ovarian cancer families is related to the I1307K mutation, we evaluated 264 Ashkenazi Jews from 158 families. Most of these individuals had either a personal or a family history of breast and/or ovarian cancer, and 19.3% (51 of 264) carried one of the recurrent BRCA1 (185delAG or 5382 insC) or BRCA2 (6174delT) mutations. We detected the APC I1307K mutation in 7% (11 of 158) of the Ashkenazi Jewish families and in 4.5% (12 of 264) of the individuals participating in these studies. Of the families studied, 26.6% (42 of 158) had at least one case of colorectal cancer in a first-, second-, or third-degree relative of the proband. Significantly, of the 12 individuals who possessed the I1307K mutation, none was diagnosed with colorectal cancer and none had a known first-, second-, or third-degree relative diagnosed with colon cancer. The results suggest that factors other than the I1307K mutation contribute to the increased incidence of colon cancer in Ashkenazi breast-ovarian cancer families. Our results emphasize that only a subset of Ashkenazi Jewish individuals with a family history of colorectal cancer should be viewed as candidates for genetic susceptibility testing for the I1307K APC mutation.     

Mutations in the sulonylurea receptor gene are associated with familial hyperinsulinism in Ashkenazi Jews

Familial hyperinsulinism (HI) is a disorder of pancreatic beta-cell function characterized by persistent hyperinsulinism despite severe hypoglycemia. To define the molecular genetic basis of HI in Ashkenazi Jews, 25 probands were screened for mutations in the sulfonylurea receptor (SUR1) gene by single-strand conformation polymorphism (SSCP) analysis of genomic DNA and subsequent nucleotide sequence analyses. Two common mutations were identified: (I) a novel in-frame deletion of three nucleotides (nt) in exon 34, resulting in deletion of the codon for F1388 (delta F1388) and (II) a previously described g-->a transition at position-9 of the 3' splice site of intron 32 (designated 3992-9g-->a). Together, these mutations are associated with 88% of the HI chromosomes of the patients studied. 86Rb+ efflux measurements of COSm6 cells co-expressing Kir6.2 and either wild-type or delta F1388 SUR1 revealed that the F1388 mutation abolished ATP-sensitive potassium channel (KATP) activity in intact cells. Extended haplotype analyses indicated that the delta F1388 mutation was associated with a single specific haplotype whereas the 3992-9g-->a mutation was primarily associated with a single haplotype but also occurred in the context of several other different haplotypes. These data suggest that HI in Ashkenazi Jews is predominantly associated with mutations in the SUR1 gene and provide evidence for the existence of at least two founder HI chromosomes in this population.     

A pharmacogenetic study of trimethylaminuria in Orientals

A study of the metabolism of trimethylamine was carried out in 103 healthy Thai volunteers (70 men and 33 women) and it was found that under normal dietary conditions 84-100% of trimethylamine was excreted in the urine in its N-oxide form. Five propositi living in different parts of the country were identified as having deficiency in the N-oxidation of this tertiary amine, because they excreted only 8-35% of this chemical as trimethylamine N-oxide. This metabolic defect was also confirmed by the results of an oral trimethylamine (600 mg) challenge experiment in which all five propositi were found to excrete an even smaller percentage of trimethylamine as trimethylamine N-oxide in their urine. The results of a study of the families of the two proband individuals, as well as those members of their preceding generations under normal dietary conditions, are consistent with the view that the disorder or metabolic defect is inherited in a Mendelian fashion as an autosomal recessive trait, similar to that reported for white Caucasian subjects.     

Molecular genotyping in Brazilian patients with the classical and nonclassical forms of 21-hydroxylase deficiency

The aim of our study was to determine, by allele-specific PCR, the frequency of point mutations in 130 Brazilian patients with the classical and nonclassical forms of 21-hydroxylase deficiency and to correlate genotype with phenotype. The most frequent mutations were 12 splice (41.8% in salt wasting), I172N (32.6% in simple virilizing), and V281L (40.2% in late onset form). The frequency of the 9 most common point mutations was similar to that reported for other countries, except for Del 8 nt and Cluster, which were less frequent in the classical form. Rarer mutations such as P453S, G291S, I7 splice, W405X, R483P, and R483-->frameshift were rarely found or were absent. The 93 fully genotyped patients were classified into 3 mutation groups, based on the degree of enzymatic activity (group A, <2%; group B, approximately 2%, and group C, >18%). In group A, 62% of the cases presented the salt wasting form; in group B, 96% the simple virilizing form; and in group C, 88% the late onset form. We diagnosed 80% of the affected alleles after screening for large rearrangements and 15 point mutations. The absence of previously described mutations in 20% of the affected alleles suggests the presence of new mutations in our population.     

Hereditary tubulo-interstitial nephropathy

Most of the hereditary tubulointerstitial nephropathy see the cyst formation in the kidney. Among them, juvenile nephronophthisis and medullary sponge kidney, which primarily involve the tubule structures of the renal medulla, are associated with variable enlargement of the distal tubules and collecting ducts and with interstitial fibrosis and inflammation of a variable extent. Juvenile nephronophthisis features sodium wasting, anemia, and renal failure. Eighty % of juvenile nephronophthisis is an autosomal recessive disorder, and it also has a variant form which is an autosomal dominant disease. A gene for autosomal recessive juvenile nephronophthisis is now mapped to 2q13, although no linkage has been observed in autosomal dominant variant to this region. Thus genetic heterogeneity between autosomal recessive variant and autosomal dominant variant of juvenile nephronophthisis is suggested. Juvenile nephronophthisis progress to end-stage renal failure. In contrast, medullary sponge kidney, which features nephrocalcinosis and urinary stones, is a relatively benign condition and occurs occasionally in the same family.