In human nephrectomy specimens, the kidney level of tubular transport proteins does not correlate with their abundance in urinary extracellular vesicles.

Human urinary extracellular vesicles (uEVs) contain proteins from all nephron segments. An assumption for years has been that uEVs might provide a noninvasive liquid biopsy that reflect physiological regulation of transporter protein expression in humans. We hypothesized that protein abundance in human kidney tissue and uEVs are directly related and tested this in paired collections of nephrectomy tissue and urine sample from 12 patients. Kidney tissue was fractioned into total kidney protein, crude membrane (plasma membrane and large intracellular vesicles)-enriched, and intracellular vesicle-enriched fractions as well as sections for immunolabeling. uEVs were isolated from spot urine samples. Antibodies were used to quantify six segment-specific proteins [proximal tubule-expressed Na+-phosphate cotransporters (NaPi-2a), thick ascending limb-expressed Tamm-Horsfall protein and renal outer medullary K+ channels, distal convoluted tubule-expressed NaCl cotransporters, intercalated cell-expressed V-type H+-ATPase subunit G3 (ATP6V1G3), and principal cell-expressed aquaporin 2] and three uEV markers (exosomal CD63, microvesicle marker vesicle-associated membrane protein 3, and ß-actin) in each fraction. By Western blot analysis and immunofluorescence labeling, we found significant positive correlations between the abundance of CD63, NaCl cotransporters, aquaporin 2, and ATP6V1G3, respectively, within the different kidney-derived fractions. We detected all nine proteins in uEVs, but their level did not correlate with kidney tissue protein abundance. uEV protein levels showed higher interpatient variability than kidney-derived fractions, indicating that factors, besides kidney protein abundance, contribute to the uEV protein level. Our data suggest that, in a random sample of nephrectomy patients, uEV protein level is not a predictor of kidney protein abundance.

Creatine Transporter Deficiency: Screening of Males with Neurodevelopmental Disorders and Neurocognitive Characterization of a Case.

OBJECTIVE: Creatine transporter deficiency (CTD) is an X-linked, neurometabolic disorder associated with intellectual disability that is characterized by brain creatine (Cr) deficiency and caused by mutations in SLC6A8, the Cr transporter 1 protein gene. CTD is identified by elevated urine creatine/creatinine (Cr/Crn) ratio or reduced Cr peak on brain magnetic resonance spectroscopy; the diagnosis is confirmed by decreased Cr uptake in cultured fibroblasts, and/or identification of a mutation in the SLC6A8 gene. Prevalence studies suggest this disorder may be underdiagnosed. We sought to identify cases from a well-characterized cohort of children diagnosed with neurodevelopmental disorders. METHOD: Urine screening for CTD was performed on a cohort of 46 males with autism spectrum disorder (ASD) and 9 males with a history of non-ASD developmental delay (DD) classified with intellectual disability. RESULTS: We identified 1 patient with CTD in the cohort based on abnormal urine Cr/Crn, and confirmed the diagnosis by the identification of a novel frameshift mutation in the SLC6A8 gene. This patient presented without ASD but with intellectual disability, and was characterized by a nonspecific phenotype of early language delay and DD that persisted into moderate-to-severe intellectual disability, consistent with previous descriptions of CTD. CONCLUSION: Identification of patients with CTD is possible by measuring urine Cr and Crn levels and the current case adds to the growing literature of neurocognitive deficits associated with the disorder that affect cognition, language and behavior in childhood.

ABCG2 functions as a general phytoestrogen sulfate transporter in vivo.

ABCG2 is an ATP-dependent efflux transporter that limits the systemic exposure of its substrates. The preferred substrates of ABCG2 in vivo are largely unknown. We aimed to identify the compounds transported by ABCG2 under physiological conditions. In vitro, ABCG2 transports several sulfate conjugates at high rates. We therefore used targeted metabolomics, specifically detecting compounds conjugated to sulfate, to search in plasma, urine, and bile samples of wild-type and Abcg2-/- mice for differentially present compounds, which are likely to represent in vivo ABCG2 substrates. Levels of many sulfate conjugates were up to 15-fold higher in plasma and urine of Abcg2-/- than of wild-type mice, with the opposite effect seen in bile. These differentially present compounds were identified as the sulfate conjugates of phytoestrogens, compounds with weak pro- or antiestrogenic properties. We confirmed that these sulfate conjugates were ABCG2 substrates using transportomics, a method that uses vesicular transport assays to screen for substrates of ABC transporters in body fluids. In conclusion, our results show that ABCG2 limits the systemic exposure to many different phytoestrogens, a class of compounds to which mammals are exposed on a daily basis via food of plant origin, by directing their sulfate conjugates for excretion via the feces.

Renal tubular dysfunction in patients with American cutaneous leishmaniasis.

Renal dysfunction seen in patients with American cutaneous leishmaniasis (ACL) has been attributed to the use of antimonials for treatment. To determine whether ACL itself causes tubular dysfunction, we measured renal function in 37 patients with ACL prior to their treatment and compared results to that in 10 healthy volunteers of similar mean age. None of the patients presented with glomerular dysfunction; however, 27 had a urinary concentrating defect. There was no statistical difference between groups in the pre- and post-desmopressin test of urine osmolality, but the post-test urine osmolality of the controls was significantly higher. Urinary AQP2 levels, determined by western blot of isolated exosomes, were found to be significantly lower in patients than in controls, whereas that of the cotransporter (NKCC2) was significantly higher. A urinary acidification defect (post-test pH greater than 5.50 following calcium chloride) was found in 15 patients. Pretest plasma bicarbonate was below normal in 12 patients as was the pretest plasma pH in 14. Expression of the Na/H exchanger (NHE3), H(+)-ATPase, and pendrin were all significantly higher in patients with ACL than in controls. A combined urinary concentration and acidification defect was found in 12 patients. Thus, the urinary concentrating defect of ACL may be caused by decreased AQP2, with increased NKCC2 compensatory. Pendrin upregulation may be related to the urinary acidification defect with increased NHE3 and H(+)-ATPase also compensatory. Hence, ACL can cause asymptomatic renal tubular dysfunction.

Spondylocostal dysostosis associated with methylmalonic aciduria.

Spondylocostal dysostosis (SCD) is a genetic disorder characterized by vertebral segmentation and formation defects associated with changes of the ribs. Autosomal dominant and recessive modes of inheritance have been reported. Methylmalonic aciduria (MMA) is an inborn error of propionate or cobalamin metabolism. It is an autosomal recessive disorder and one of the most frequent forms of branched-chain organic acidurias. Here we report on a case of a Brazilian boy with both diseases. As we know, it is the first case in the literature with the occurrence of both SCD and MMA--the first a skeletal disease and the latter an inborn error of metabolism.

Selective screening for inborn errors of metabolism and secondary methylmalonic aciduria in pregnancy at high risk district of neural tube defects: a human metabolome study by GC-MS in China.

OBJECTIVE: Urease pretreatment-gas chromatography-mass spectrometry (UP-GC-MS) has become a valuable tool in the field of metabolome research, including analysis of inborn errors of metabolism (IEMs) and acquired metabolic disturbances secondary to nutrition or drugs. This research aims to screen IEMs in Chinese patients and to explore the cause of neural tube defects (NTDs), a congenital malformation very common in North China. DESIGN AND METHODS: Urine samples from 618 patients at high risk of IEMs in China were collected, and UP-GC-MS was performed in the selective screening. Urinary methylmalonate (MMA) levels in pregnancy with and without NTDs fetus, respectively, at Luliang district, a countryside region with NTDs incidence 227/10,000, Shanxi Province, North China, were analyzed by GC-MS-selective ion monitoring, and compared with that from control region. RESULTS: Among the 618 patients, 22 kinds and 59 cases of IEM were found. Methylmalonic aciduria (MMAuria) is on top of the list, followed by neonatal intrahepatic cholestasis caused by citrin deficiency (NICCD), phenylketonuria (PKU), multiple carboxylase deficiency (MCD), etc. Satisfactory therapeutic effects have been achieved in patients such as NICCD, MCD, and galactosemia. At Luliang district, urinary MMA levels in pregnancy, no matter NTDs-affected or unaffected, are both significantly (P<0.01) higher than that in normal control, while serum B(12) levels in NTDs-affected pregnancy are significantly lower than that both in NTDs-unaffected group (P<0.01) and in normal control (P<0.01). Furthermore, B(12) <52.5 pmol/L is associated with a 7.78-fold increased NTDs risk (P<0.01) at Luliang district. CONCLUSIONS: Selective screening for IEMs by UP-GC-MS provides valuable evidences for the diagnosis of IEMs. MMAuria secondary to B(12) deficiency is quite common at Luliang district, suggesting B(12) deficiency is involved in the development of NTDs in the specific population. This metabolome research by UP-GC-MS provides valuable epidemiological information that helps to understand the prevalence and the possible intervention strategy of NTDs and IEMs, especially in Chinese population.