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372 results on '"Rousaud F"'

9. Non-type I cystinuria caused by mutations in SLC7A9, encoding a subunit (bo,+AT) of rBAT

Author

Feliubadaló, L., Font, M., Purroy, J., Rousaud, F., Estivill, X., Nunes, V., Golomb, E., Centola, M., Aksentijevich, I., Kreiss, Y., Goldman, B., Pras, M., Kastner, D. L., Pras, E., Gasparini, P., Bisceglia, L., Beccia, E., Gallucci, M., Sanctis, L. d., Ponzone, A., Rizzoni, G. F., Zelante, L., Bassi, M. T., George, A. L., Manzoni, Marta, Grandi, A. D., Riboni, M., Endsley, J. K., Ballabio, A., Borsani, Giuseppe, Reig, N., Fernández, E., Estévez, R., Pineda, M., Torrents, D., Camps, M., Lloberas, J., Zorzano, A., Palacín, M., and Consortium, I. C.

Subjects
Male, Amino Acid Transport Systems, Sequence Homology, chemistry.chemical_compound, Models, Complementary, Missense mutation, Tissue Distribution, Frameshift Mutation, Genetics, Membrane Glycoproteins, COS cells, Cystinuria, Basic, Carrier Proteins, Mutation, Missense, Pedigree, Amino Acid, Italy, COS Cells, Female, Human, DNA, Complementary, Protein subunit, Molecular Sequence Data, Mutation, Missense, Cystine, Libya, Biology, Models, Biological, Chromosomes, Frameshift mutation, medicine, Animals, Humans, Amino Acid Sequence, Amino acid transporter, Gene, Pair 19, DNA, Jews, Biological, North America, Spain, Sequence Homology, Amino Acid, medicine.disease, Molecular biology, chemistry, Amino Acid Transport Systems, Basic, Chromosomes, Human, Pair 19
Abstract

Cystinuria (MIM 220100) is a common recessive disorder of renal reabsorption of cystine and dibasic amino acids. Mutations in SLC3A1, encoding rBAT, cause cystinuria type I (ref. 1), but not other types of cystinuria (ref. 2). A gene whose mutation causes non-type I cystinuria has been mapped by linkage analysis to 19q12-13.1 (Refs 3,4). We have identified a new transcript, encoding a protein (bo, +AT, for bo,+ amino acid transporter) belonging to a family of light subunits of amino acid transporters, expressed in kidney, liver, small intestine and placenta, and localized its gene (SLC7A9) to the non-type I cystinuria 19q locus. Co-transfection of bo,+AT and rBAT brings the latter to the plasma membrane, and results in the uptake of L-arginine in COS cells. We have found SLC7A9 mutations in Libyan-Jews, North American, Italian and Spanish non-type I cystinuria patients. The Libyan Jewish patients are homozygous for a founder missense mutation (V170M) that abolishes b o,+AT amino-acid uptake activity when co-transfected with rBAT in COS cells. We identified four missense mutations (G105R, A182T, G195R and G295R) and two frameshift (520insT and 596delTG) mutations in other patients. Our data establish that mutations in SLC7A9 cause non-type I cystinuria, and suggest that bo,+AT is the light subunit of rBAT.

Published
1999
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11. Differential uptake of arginine derivatives by the human heteromeric amino acid transporter b 0,+ AT-rBAT (SLC7A9-SLC3A1).

Author

Banjarnahor S, Scherpinski LA, Keller M, König J, and Maas R

Abstract

L-arginine and its (patho-)physiologically active derivatives, L-homoarginine and asymmetric dimethylarginine (ADMA), show significant differences in their renal clearance. The underlying molecular mechanisms remain to be elucidated, but selective tubular transport protein-mediated mechanisms likely play a role. In the present study, we investigate the human heteromeric transporter b 0,+ AT-rBAT (encoded by the SLC7A9 and SLC3A1 genes) as a potential candidate because it is localized in the luminal membrane of human proximal tubule cells and capable of mediating the cellular uptake of amino acids, including L-arginine. Double-transfected Madin-Darby canine kidney (MDCK) cells stably expressing human b 0,+ AT-rBAT exhibited significant uptake of L-arginine and L-homoarginine, with apparent K m values of 512.6 and 197.0 μM, respectively. On the contrary, ADMA uptake was not saturated up to 4000 μM, with a transport rate > 5 nmol × mg protein -1  × min -1 . With an IC 50 value of 115.8 μM, L-arginine inhibited L-homoarginine uptake. Conversely, L-arginine only exhibited a partial inhibitory effect on ADMA uptake. Taken together, our data indicate that b 0,+ AT-rBAT may contribute to the differential renal handling of L-arginine, L-homoarginine, and ADMA., (© 2024. The Author(s).)

Published
2024
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12. [Isotopic study with double phase 99mTc-sestamibi in the localization of parathyroid gland lesions]

Author

Bernà L, Piera J, Rodríguez-Espinosa J, Caixàs A, Manuel Puig Domingo, Farrerons J, Galofré M, Rousaud F, Matías-Guiu X, Estorch M, and Carrió I

Subjects
Adult, Male, Technetium Tc 99m Sestamibi, Adolescent, Parathyroid Diseases, Humans, Female, Middle Aged, Radiopharmaceuticals, Radionuclide Imaging, Aged
Abstract

The use of preoperative imaging in patients with hyperparathyroidism remains controversial. The aim of this study is to assess the usefulness of the double-phase 99mTc-sestamibi scintigraphy in the diagnosis of abnormal parathyroid glands in patients with primary hyperparathyroidism.We studied 60 patients presenting with primary hyperparathyroidism who were referred to surgery; four of them had been unsuccessfully operated. 99mTc-sestamibi scintigraphy were performed in all patients previously to surgery. Scintigraphic technique: planar imaging of the neck and thorax was done in the anterior view at 15 and 150 min postinjection of 740 MBq (20 mCi) of 99mTc-sestamibi.Surgery found 57 adenomas (2.59 [SD, 5.84] g; range 0.160-40), 6 hyperplastic glands (0.34 [SD, 0.26] g) and one carcinoma 8.2 g. The 99mTc-sestamibi was able to localize correctly 60 out of 64 lesions (55/57 adenomas, 4/6 hyperplastic glands and 1/1 carcinoma) (global sensitivity of 94%, adenomas sensitivity of 96%, positive predictive value of 97% and specificity of 98%). Isotopic imaging detected the abnormal tissue in all patients who had undergone unsuccessful previous surgery. PTH (4 [SD, 1.51] pmol/l) and calcium postoperative serum levels (2.13 [SD, 0.22] mmol/l) showed curation of all patients.Double phase parathyroid scintigraphy with 99mTc-sestamibi is the method of choice to localize abnormal parathyroid glands.

Published
1999

13. Mineral and bone disease - CKD 1-5

Author

Loh, Z. Y., primary, Yap, C. W., additional, Anantharaman, V., additional, How, P., additional, Hirata, M., additional, Aizawa, K., additional, Yogo, K., additional, Tashiro, Y., additional, Takeda, S., additional, Endo, K., additional, Fukagawa, M., additional, Serizawa, K.-I., additional, Fujii, H., additional, Kono, K., additional, Nakai, K., additional, Goto, S., additional, Shinohara, M., additional, Kitazawa, R., additional, Kitazawa, S., additional, Nishi, S., additional, Oruc, A., additional, Korkmaz, S., additional, Bal, O., additional, Yilmaztepe Oral, A., additional, Ersoy, A., additional, Gullulu, M., additional, Ketteler, M., additional, Martin, K., additional, Amdahl, M., additional, Cozzolino, M., additional, Goldsmith, D., additional, Sharma, A., additional, Khan, S., additional, Chitalia, N., additional, Afzali, B., additional, Edozie, F., additional, Manghat, P., additional, Wierzbicki, A., additional, Hampson, G., additional, Corradini, M., additional, Iannuzzella, F., additional, Manenti, L., additional, Ciarrocchi, A., additional, Albertazzi, L., additional, Somenzi, D., additional, Pasquali, S., additional, Calabria Baxmann, A., additional, Barcellos Menon, V., additional, Froeder, L., additional, Medina-Pestana, J. O., additional, Barbosa Carvalho, A., additional, Pfeferman Heilberg, I., additional, Sola, L., additional, De Souza, N., additional, Flores, J., additional, Perico, N., additional, Yuste, C., additional, Garcia DE Vinuesa, M. S., additional, Luno, J., additional, Goicoechea, M. A., additional, Barraca, D., additional, Panizo, N., additional, Quiroga, B., additional, Kim, S. M., additional, Kwon, S. K., additional, Kim, H.-Y., additional, Cournoyer, S., additional, Bell, R., additional, Berbiche, D., additional, Menard, L., additional, Viaene, L., additional, Evenepoel, P., additional, Meijers, B., additional, Overbergh, L., additional, Mathieu, C., additional, Pasquali, M., additional, Rotondi, S., additional, Conte, C., additional, Pirro, G., additional, Mazzaferro, S., additional, Frasheri, A., additional, Marangella, M., additional, Tartaglione, L., additional, Park, J.-S., additional, Koo, T. Y., additional, Kim, G.-H., additional, Kang, C. M., additional, Lee, C.-H., additional, Hiemstra, T. F., additional, Casian, A., additional, Boraks, P., additional, Jayne, D., additional, Schoenmakers, I., additional, Schmiedeke, B., additional, Niemann, M., additional, Schmiedeke, D., additional, Davydenko, I., additional, Emmert, A., additional, Pilz, S., additional, Obermayer-Pietsch, B., additional, Weidemann, F., additional, Breunig, F., additional, Wanner, C., additional, Drechsler, C., additional, Shiizaki, K., additional, Ito, C., additional, Onishi, A., additional, Nakazawa, E., additional, Ogura, M., additional, Kusano, E., additional, Ermolenko, V., additional, Mikhaylova, N., additional, Vartanjan, K., additional, Levchuk, D., additional, Dobrina, E., additional, Capusa, C., additional, Stancu, S., additional, Maria, D., additional, Vladu, I., additional, Barsan, L., additional, Garneata, L., additional, Mota, E., additional, Mircescu, G., additional, Ilyes, A., additional, Dorobantu, N., additional, Petrescu, L., additional, Martinez-Gallardo, R., additional, Ferreira, F., additional, Garcia-Pino, G., additional, Luna, E., additional, Caravaca, F., additional, De Jager, D. J., additional, Grootendorst, D. C., additional, Postmus, I., additional, De Goeij, M. C. M., additional, Boeschoten, E. W., additional, Sijpkens, Y. W. J., additional, Dekker, F. W., additional, Halbesma, N., additional, Wuthrich, R. P., additional, Covic, A., additional, Gaillard, S., additional, Rakov, V., additional, Louvet, L., additional, Buchel, J., additional, Steppan, S., additional, Passlick-Deetjen, J., additional, Massy, Z. A., additional, Akalin, N., additional, Altiparmak, M. R., additional, Trabulus, S., additional, Yalin, A. S., additional, Seyahi, N., additional, Ataman, R., additional, Serdengecti, K., additional, Donate-Correa, J., additional, Martinez-Sanz, R., additional, Muros-de-Fuentes, M., additional, Garcia, J., additional, Garcia, P., additional, Cazana, V., additional, Mora-Fernandez, C., additional, Navarro-Gonzalez, J. F., additional, Berutti, S., additional, Marranca, D., additional, Soragna, G., additional, Erroi, L., additional, Migliardi, M., additional, Belloni, L., additional, Parmeggiani, M., additional, Camerini, C., additional, Pezzotta, M., additional, Zani, R., additional, Movilli, E., additional, Cancarini, G., additional, Anwar, S., additional, Pruthi, R., additional, Kenchayikoppad, S., additional, Reyes, J., additional, Dasilva, I., additional, Furlano, M., additional, Calero, F., additional, Montanes, R., additional, Ayasreh, N., additional, Del Pozo, M., additional, Estorch, M., additional, Rousaud, F., additional, Ballarin, J. A., additional, Bover, J., additional, Resende, A., additional, Dias, C. B., additional, Dos Reis, L., additional, Jorgetti, V., additional, Woronik, V., additional, Panuccio, V., additional, Enia, G., additional, Tripepi, R., additional, Cutrupi, S., additional, Pizzini, P., additional, Aliotta, R., additional, Zoccali, C., additional, Yildiz, I., additional, Sagliker, Y., additional, Demirhan, O., additional, Tunc, E., additional, Inandiklioglu, N., additional, Tasdemir, D., additional, Acharya, V., additional, Zhang, L., additional, Golea, O., additional, Sabry, A., additional, Ookalkar, D., additional, Radulescu, D., additional, Ben Maiz, H., additional, Chen, C. H., additional, Rome, J. P., additional, Benzegoutta, M., additional, Paylar, N., additional, Eyupoglu, K., additional, Karatepe, E., additional, Esenturk, M., additional, Yavascan, O., additional, Grzegorzevska, A., additional, Shilo, V., additional, M-Mazdeh, M., additional, Francesco, R. C., additional, Gouda, Z., additional, Adam, S. M., additional, Emir, I., additional, Ocal, F., additional, Usta, E., additional, Kiralp, N., additional, Sagliker, C., additional, S Ozkaynak, P., additional, Sagliker, H. S., additional, Bassuoni, M., additional, El-Wakil, H. S., additional, Akar, H., additional, Yenicerioglu, Y., additional, Kose, E., additional, and Sekin, O., additional

Published
2012
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14. [Advancements in the genetics of cystinuria]

Author

Rousaud F, Rousaud A, Nunes V, Barceló P, and Manuel Palacín

Subjects
Kidney Calculi, Cystinuria, Colic, Homozygote, Urinary Tract Infections, Prevalence, Humans, Genes, Recessive, Kidney Diseases, Amino Acids
Abstract

Cystinuria is an amino acid disease due to a defect of intestinal and renal tubular transport of cystine and various basic amino acids (lysine, arginine and ornithine). The disease is transmitted horizontally according to an autosomal recessive pattern. The overall prevalence is one per 7,000 live births. It is the commonest hereditary disease affecting amino acid transport (MIM 220100). This disease is characterized by excessive urinary excretion of cystine and basic amino acids. From a clinical point of view, almost 50% of homozygotes will develop cystine renal stones with urinary tract infection, renal colic, partial or total obstruction of the urinary tract and possibly loss of renal function.

Published
1995

18. Gene symbol: SLC3A1. Disease: Cystinuria.

Author

Nunes V, Font-Llitjos M, Jimenez-Vidal M, Bisceglia L, Di Perna M, de Sanctis L, Rousaud F, Zelante L, Palacin M, and Nunes V

Subjects
Amino Acid Substitution, Humans, Cystinuria genetics, Mutation, Missense
Published
2005

19. Slc7a9-deficient mice develop cystinuria non-I and cystine urolithiasis.

Author

Feliubadaló L, Arbonés ML, Mañas S, Chillarón J, Visa J, Rodés M, Rousaud F, Zorzano A, Palacín M, and Nunes V

Subjects
Amino Acids metabolism, Animals, Carrier Proteins physiology, Cystinuria genetics, Cystinuria pathology, Female, Gene Targeting, Heterozygote, Homozygote, Male, Membrane Glycoproteins physiology, Mice, Mice, Inbred C57BL, Mice, Knockout, Phenotype, Urinary Calculi genetics, Urinary Calculi pathology, Amino Acid Transport Systems, Basic, Cystine metabolism, Cystinuria etiology, Kidney Calculi pathology, Membrane Glycoproteins deficiency, Urinary Calculi etiology
Abstract

Cystinuria is a common recessive disorder of renal reabsorption of cystine and dibasic amino acids that results in urolithiasis of cystine. Cystinuria is caused by defects in the amino acid transport system b0,+ (i.e. the rBAT/b0,+AT heteromeric complex). Mutations in SLC3A1, encoding rBAT, cause cystinuria type A, characterized by a silent phenotype in heterozygotes (phenotype I). Mutations in SLC7A9, encoding b0,+AT, cause cystinuria type B, in which heterozygotes in most cases hyperexcrete cystine and dibasic amino acids (phenotype non-I). To facilitate in vivo investigation of b0,+AT in cystinuria, Slc7a9 knockout mice have been generated. Expression of b0,+AT protein is completely abolished in the kidney of Slc7a9-/- mice ('Stones'). In contrast, Stones expressed significant amounts of rBAT protein, which is covalently linked to unidentified light subunit(s). Stones mice present a dramatic hyperexcretion of cystine and dibasic amino acids, while Slc7a9+/- mice show moderate but significant hyperexcretion of these amino acids (phenotype non-I). Forty-two per cent of Stones mice develop cystine calculi in the urinary system. Calculi develop during the first month of life and grow throughout the life span of the animals. Histopathology in kidney reveals typical changes for urolithiasis (tubular and pelvic dilatation, tubular necrosis, tubular hyaline droplets and chronic interstitial nephritis). The fact that some Stones mice, generated in a mixed genetic background, develop cystine calculi from an early age, while others do not develop them in their first year of life, suggests the involvement of modifier genes in the lithiasis phenotype. Thus, Stones provide a valid model of cystinuria which can be used in the study of genetic, pharmacological and environmental factors involved in cystine urolithiasis.

Published
2003
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20. [Cystinuria].

Author

Rousaud F, Palacín M, and Nunes V

Subjects
Amino Acid Transport Systems genetics, Amino Acid Transport Systems physiology, Humans, Molecular Biology, Cystinuria genetics
Published
2003

21. Comparison between SLC3A1 and SLC7A9 cystinuria patients and carriers: a need for a new classification.

Author

Dello Strologo L, Pras E, Pontesilli C, Beccia E, Ricci-Barbini V, de Sanctis L, Ponzone A, Gallucci M, Bisceglia L, Zelante L, Jimenez-Vidal M, Font M, Zorzano A, Rousaud F, Nunes V, Gasparini P, Palacín M, and Rizzoni G

Subjects
Adolescent, Amino Acids urine, Child, Cystinuria urine, Female, Genetic Linkage, Humans, Male, Mutation, Phenotype, Amino Acid Transport Systems, Basic, Carrier Proteins genetics, Cystinuria classification, Cystinuria genetics, Heterozygote, Membrane Glycoproteins genetics
Abstract

Recent developments in the genetics and physiology of cystinuria do not support the traditional classification, which is based on the excretion of cystine and dibasic amino acids in obligate heterozygotes. Mutations of only two genes (SLC3A1 and SLC7A9), identified by the International Cystinuria Consortium (ICC), have been found to be responsible for all three types of the disease. The ICC set up a multinational database and collected genetic and clinical data from 224 patients affected by cystinuria, 125 with full genotype definition. Amino acid urinary excretion patterns of 189 heterozygotes with genetic definition and of 83 healthy controls were also included. All SLC3A1 carriers and 14% of SLC7A9 carriers showed a normal amino acid urinary pattern (i.e., type I phenotype). The rest of the SLC7A9 carriers showed phenotype non-I (type III, 80.5%; type II, 5.5%). This makes the traditional classification imprecise. A new classification is needed: type A, due to two mutations of SLC3A1 (rBAT) on chromosome 2 (45.2% in our database); type B, due to two mutations of SLC7A9 on chromosome 19 (53.2% in this series); and a possible third type, AB (1.6%), with one mutation on each of the above-mentioned genes. Clinical data show that cystinuria is more severe in males than in females. The two types of cystinuria (A and B) had a similar outcome in this retrospective study, but the effect of the treatment could not be analyzed. Stone events do not correlate with amino acid urinary excretion. Renal function was clearly impaired in 17% of the patients.

Published
2002
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22. rBAT-b(0,+)AT heterodimer is the main apical reabsorption system for cystine in the kidney.

Author

Fernández E, Carrascal M, Rousaud F, Abián J, Zorzano A, Palacín M, and Chillarón J

Subjects
Absorption, Amino Acid Sequence, Animals, Blotting, Western, Carrier Proteins genetics, Cell Membrane chemistry, Cystinuria genetics, Dimerization, Electrophoresis, Polyacrylamide Gel, Humans, Immunosorbent Techniques, Kidney Tubules, Proximal chemistry, Kidney Tubules, Proximal ultrastructure, Membrane Glycoproteins genetics, Mice, Microvilli chemistry, Molecular Sequence Data, Mutation, Amino Acid Transport Systems, Basic, Carrier Proteins chemistry, Carrier Proteins physiology, Cystine metabolism, Kidney Tubules, Proximal metabolism, Membrane Glycoproteins chemistry, Membrane Glycoproteins physiology
Abstract

Mutations in the rBAT and b(0,+)AT genes cause type I and non-type I cystinuria, respectively. The disulfide-linked rBAT-b(0,+)AT heterodimer mediates high-affinity transport of cystine and dibasic amino acids (b(0,+)-like activity) in heterologous cell systems. However, the significance of this heterodimer for cystine reabsorption is unknown, as direct evidence for such a complex in vivo is lacking and the expression patterns of rBAT and b(0,+)AT along the proximal tubule are opposite. We addressed this issue by biochemical means. Western blot analysis of mouse and human kidney brush-border membranes showed that rBAT and b(0,+)AT were solely expressed as heterodimers of identical size and that both proteins coprecipitated. Moreover, quantitative immunopurification of b(0,+)AT followed by SDS-PAGE and mass spectrometry analysis established that b(0,+)AT heterodimerizes exclusively with rBAT. Together with cystine reabsorption data, our results demonstrate that a decreasing expression gradient of heterodimeric rBAT-b(0,+)AT along the proximal tubule is responsible for virtually all apical cystine reabsorption. As a corollary of the above, there should be an excess of rBAT expression over that of b(0,+)AT protein in the kidney. Indeed, complete immunodepletion of b(0,+)AT did not coprecipitate >20-30% of rBAT. Therefore, another rBAT-associated subunit may be present in latter parts of the proximal tubule.

Published
2002
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23. [Cystinuria and cystine kidney lithiasis. Diagnosis and therapeutic approach].

Author

Rousaud F, Gracia S, Palacín M, Nunes V, Millán F, Oliver A, and Rousaud A

Subjects
Cystine, Genetic Counseling, Humans, Kidney Calculi genetics, Kidney Calculi urine, Pedigree, Kidney Calculi diagnosis, Kidney Calculi therapy
Abstract

Objective: Cystine renal stone is the only clinical consequence of cystinuria, an autosomal recessive hereditary disease that affects an average of 1 out of 7,000 newborns, and whose geographical distribution varies significantly. The diagnosis and treatment of this condition is reviewed in the light of the advances in genetics and molecular biology., Methods: The evolution of current knowledge about this disease is reviewed., Results/conclusions: The advances over the last 8 years have led to the characterization, at the present time, of two genes responsible for this disease, which demonstrates its polygenic origin. By phenotype, cystinuria can be classified into two types: type 1 and non-type 1. Both types show genetic and biochemical, but not clinical differences. From the therapeutic viewpoint, the main objective is to eliminate existing calculi and, above all, prevent recurrence by acting on the pathophysiologic mechanisms of renal cystine. Experience shows that despite the correct use of our current therapeutic armamentarium and the application of the general guidelines discussed in this paper, some cystinuric patients still maintain an important stone-forming activity. Patient clinical evaluation and a genetic study of both patient and family will be decisive for phenotyping.

Published
2001

24. [Analysis and clinical course of residual lithiasis after shock wave renal treatment].

Author

Rousaud Baron A, Millán F, Izquierdo de la Torre F, Rousaud F, López Llauradó H, Martí Malet J, and de la Torre Holguera P

Subjects
Humans, Retrospective Studies, Treatment Failure, Kidney Calculi therapy, Lithotripsy
Abstract

Objective: Although residual lithiasis after the application of shock waves is a situation that coexists with the procedure, in some cases it can be considered to be a failure of ESWL. The natural history and outcome of 244 cases of residual renal stone followed over a 5-year period are analyzed, and the approach based on a pre-established classification is discussed., Methods: Of 1,407 patients treated by ESWL for renal lithiasis during 1995, 244 cases with a renal calculus larger than 3 mm were followed for a period of 5 years after treatment and evaluated by clinical, radiological, ultrasound and analytical methods., Results: At 3 months post-ESWL, 1,013 cases (72%) were completely stone-free and 394 (28%) showed residual stone; of these, 244 (62%) had residual stone fragments greater than 3 mm. At 5 years, 190 (78%) remained stable and the remaining 54 (22%) showed stone regrowth that warranted additional treatments: 52 ESWL, 1 PNL and 1 partial nephrectomy. Despite the retreatments, only 42% became completely stone-free., Conclusions: A classification of residual renal stone can be established based on the data obtained to orient the approach in each case, although the frequency of residual stone can be reduced by the appropriate indication of ESWL. Once a renal stone has formed retreatments with ESWL cannot ensure complete elimination of the stone.

Published
2001

25. Cystinuria type I: identification of eight new mutations in SLC3A1.

Author

Bisceglia L, Purroy J, Jiménez-Vidal M, d'Adamo AP, Rousaud F, Beccia E, Penza R, Rizzoni G, Gallucci M, Palacín M, Gasparini P, Nunes V, and Zelante L

Subjects
Adolescent, Adult, Aged, Base Sequence genetics, Child, Preschool, Gene Frequency, Humans, Middle Aged, Mutation, Missense genetics, Cystinuria classification, Cystinuria genetics, Membrane Transport Proteins genetics, Mutation genetics
Abstract

Background: Cystinuria is a heritable disorder of amino acid transport characterized by the defective transport of cystine and the dibasic amino acids through the brush border epithelial cells of the renal tubule and intestine tract. Three types of cystinuria (I, II, and III) have been described based on the urinary excretion of cystine and dibasic amino acids in obligate heterozygotes. The SLC3A1 gene coding for an amino acid transporter named rBAT is responsible for type I cystinuria, whereas the SLC7A9 gene coding for a subunit (b0,+AT) of rBAT is involved in determining non-type I (types II and III) cystinuria., Methods: The SLC3A1 gene sequence was investigated in a sample of seven type I/type I, three type I/non-type I, six type I/untyped, and four untyped unrelated cystinuric patients by RNA single-strand conformation polymorphism (RNA-SSCP)., Results: Eight new point mutations (S168X, 765+1G>T, 766-2A>G, R452Q, Y461X, S547W, L564F, and C673W) and seven previously reported mutations were detected. These new mutations increase the number of mutated alleles so far characterized in SLC3A1 to 62., Conclusions: We have found SLC3A1 mutations in 0.739 of the type I chromosomes studied. The relatively high proportion of uncharacterized type I chromosomes suggests either that there may be mutations not yet found in SLC3A1 or that many of the assigned type I chromosomes in mixed type I/non-type I patients may have mutations in SLC7A9. If the hypothesis is excluded in the future, we believe that a third gene may be involved in cystinuria.

Published
2001
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27. Molecular genetics of cystinuria: identification of four new mutations and seven polymorphisms, and evidence for genetic heterogeneity

Author

Gasparini P, Mj, Calonge, Bisceglia L, Purroy J, Dianzani I, Angelantonio Notarangelo, Rousaud F, Gallucci M, Testar X, and Ponzone A

Subjects
Cystinuria, Polymorphism, Genetic, Base Sequence, Genotype, Molecular Sequence Data, DNA, Original Articles, Genetic Heterogeneity, Phenotype, Italy, Spain, Mutation, Humans, Alleles, Polymorphism, Single-Stranded Conformational
Abstract

A cystinuria disease gene (rBAT) has been recently identified, and some mutations causing the disease have been described. The frequency of these mutations has been investigated in a large sample of 51 Italian and Spanish cystinuric patients. In addition, to identify new mutated alleles, genomic DNA has been analyzed by an accurate and sensitive method able to detect nucleotide changes. Because of the lack of information available on the genomic structure of rBAT gene, the study was carried out using the sequence data so far obtained by us. More than 70% of the entire coding sequence and 8 intron-exon boundaries have been analyzed. Four new mutations and seven intragenic polymorphisms have been detected. All mutations so far identified in rBAT belong only to cystinuria type I alleles, accounting for approximately 44% of all type I cystinuric chromosomes. Mutation M467T is the most common mutated allele in the Italian and Spanish populations. After analysis of 70% of the rBAT coding region, we have detected normal sequences in cystinuria type II and type III chromosomes. The presence of rBAT mutated alleles only in type I chromosomes of homozygous (type I/I) and heterozygous (type I/III) patients provides evidence for genetic heterogeneity where rBAT would be responsible only for type I cystinuria and suggests a complementation mechanism to explain the intermediate type I/type III phenotype.

28. Gene symbol: SLC7A9. Disease: cystinuria, untyped

Author

Nunes V, Font-Llitjós M, Jiménez-Vidal M, Bisceglia L, Di Perna M, de Sanctis L, Rousaud F, Zelante L, and Manuel Palacín

Subjects
Cystinuria, Codon, Nonsense, Mutation, Mutation, Missense, Amino Acid Transport Systems, Basic, Humans, Gene Deletion

29. Gene symbol: SLC3A1. Disease: Cystinuria

Author

Nunes V, Font-Llitjos M, Jimenez-Vidal M, Luigi Bisceglia, Di Perna M, de Sanctis L, Rousaud F, Zelante L, and Palacin M

Subjects
Amino Acid Transport Systems, Neutral, Cystinuria, Amino Acid Substitution, Mutation, Missense, Amino Acid Transport Systems, Basic, Humans, Gene Deletion

30. Gene symbol: SLC3A1. Disease: cystinuria

Author

Nunes V, Font-Llitjós M, Jiménez-Vidal M, Luigi Bisceglia, Di Perna M, de Sanctis L, Rousaud F, Zelante L, and Palacín M

Subjects
Amino Acid Transport Systems, Neutral, Cystinuria, Codon, Nonsense, Gene Duplication, Mutation, Mutation, Missense, Amino Acid Transport Systems, Basic, Humans, Gene Deletion

31. Gene symbol: SLC7A9. Disease: cystinuria, type non-I

Author

Nunes V, Font-Llitjós M, Jiménez-Vidal M, Luigi Bisceglia, Di Perna M, de Sanctis L, Rousaud F, Zelante L, and Palacín M

Subjects
Cystinuria, Amino Acid Substitution, Codon, Nonsense, Gene Duplication, Mutation, Mutation, Missense, Amino Acid Transport Systems, Basic, Humans, Gene Deletion

32. [Cystinuria and cystine kidney lithiasis. Diagnosis and therapeutic approach]

Author

Rousaud F, Gracia S, Manuel Palacín, Nunes V, Millán F, Oliver A, and Rousaud A

Subjects
Kidney Calculi, Cystine, Humans, Genetic Counseling, Pedigree
Abstract

Cystine renal stone is the only clinical consequence of cystinuria, an autosomal recessive hereditary disease that affects an average of 1 out of 7,000 newborns, and whose geographical distribution varies significantly. The diagnosis and treatment of this condition is reviewed in the light of the advances in genetics and molecular biology.The evolution of current knowledge about this disease is reviewed.The advances over the last 8 years have led to the characterization, at the present time, of two genes responsible for this disease, which demonstrates its polygenic origin. By phenotype, cystinuria can be classified into two types: type 1 and non-type 1. Both types show genetic and biochemical, but not clinical differences. From the therapeutic viewpoint, the main objective is to eliminate existing calculi and, above all, prevent recurrence by acting on the pathophysiologic mechanisms of renal cystine. Experience shows that despite the correct use of our current therapeutic armamentarium and the application of the general guidelines discussed in this paper, some cystinuric patients still maintain an important stone-forming activity. Patient clinical evaluation and a genetic study of both patient and family will be decisive for phenotyping.

33. Gene symbol: SLC7A9. Disease: cystinuria, type I

Author

Nunes V, Font-Llitjós M, Jiménez-Vidal M, Bisceglia L, Di Perna M, de Sanctis L, Rousaud F, Zelante L, and Manuel Palacín

Subjects
Cystinuria, Amino Acid Substitution, Codon, Nonsense, Mutation, Missense, Amino Acid Transport Systems, Basic, Humans

34. Molecular genetics of cystinuria: identification of four new mutations and seven polymorphisms, and evidence for genetic heterogeneity.

Author

Gasparini P, Calonge MJ, Bisceglia L, Purroy J, Dianzani I, Notarangelo A, Rousaud F, Gallucci M, Testar X, and Ponzone A

Subjects
Alleles, Base Sequence, DNA analysis, Genotype, Humans, Italy, Molecular Sequence Data, Phenotype, Polymorphism, Single-Stranded Conformational, Spain, Cystinuria genetics, Genetic Heterogeneity, Mutation, Polymorphism, Genetic
Abstract

A cystinuria disease gene (rBAT) has been recently identified, and some mutations causing the disease have been described. The frequency of these mutations has been investigated in a large sample of 51 Italian and Spanish cystinuric patients. In addition, to identify new mutated alleles, genomic DNA has been analyzed by an accurate and sensitive method able to detect nucleotide changes. Because of the lack of information available on the genomic structure of rBAT gene, the study was carried out using the sequence data so far obtained by us. More than 70% of the entire coding sequence and 8 intron-exon boundaries have been analyzed. Four new mutations and seven intragenic polymorphisms have been detected. All mutations so far identified in rBAT belong only to cystinuria type I alleles, accounting for approximately 44% of all type I cystinuric chromosomes. Mutation M467T is the most common mutated allele in the Italian and Spanish populations. After analysis of 70% of the rBAT coding region, we have detected normal sequences in cystinuria type II and type III chromosomes. The presence of rBAT mutated alleles only in type I chromosomes of homozygous (type I/I) and heterozygous (type I/III) patients provides evidence for genetic heterogeneity where rBAT would be responsible only for type I cystinuria and suggests a complementation mechanism to explain the intermediate type I/type III phenotype.

Published
1995

35. [Therapeutic alternatives to vitamin C].

Author

Rousaud F

Subjects
Cystine analysis, Cystinuria, Humans, Urinary Calculi chemistry, Ascorbic Acid therapeutic use, Urinary Calculi drug therapy
Published
1994

36. Cystinuria caused by mutations in rBAT, a gene involved in the transport of cystine.

Author

Calonge MJ, Gasparini P, Chillarón J, Chillón M, Gallucci M, Rousaud F, Zelante L, Testar X, Dallapiccola B, and Di Silverio F

Subjects
Adolescent, Adult, Base Sequence, Biological Transport, Child, Chromosome Mapping, Cystinuria metabolism, DNA Mutational Analysis, DNA Primers, Female, Genes, Homozygote, Humans, Intestinal Mucosa metabolism, Intestinal Mucosa ultrastructure, Kidney Tubules metabolism, Kidney Tubules ultrastructure, Male, Microvilli metabolism, Molecular Sequence Data, Mutagenesis, Site-Directed, Polymerase Chain Reaction, Amino Acid Transport Systems, Basic, Carrier Proteins genetics, Chromosomes, Human, Pair 2, Cystine metabolism, Cystinuria genetics, Genes, Recessive, Membrane Glycoproteins genetics
Abstract

Cystinuria is a classic heritable aminoaciduria that involves the defective transepithelial transport of cystine and dibasic amino acids in the kidney and intestine. Six missense mutations in the human rBAT gene, which is involved in high-affinity transport of cystine and dibasic amino acids in kidney and intestine, segregate with cystinuria. These mutations account for 30% of the cystinuria chromosomes studied. Homozygosity for the most common mutation (M467T) was detected in three cystinuric siblings. Mutation M467T nearly abolished the amino acid transport activity induced by rBAT in Xenopus oocytes. These results establish rBAT as a cystinuria gene.

Published
1994
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38. Phenotypic characterization of a pediatric cohort with cystinuria and usefulness of newborn screening.

Author

Piñero-Fernández JA, Vicente-Calderón C, Lorente-Sánchez MJ, Juan-Fita MJ, Egea-Mellado JM, and González-Gallego IC

Subjects
Humans, Infant, Newborn, Neonatal Screening, Phenotype, Cystinuria diagnosis, Cystinuria genetics, Cystinuria therapy, Lithiasis, Kidney Calculi diagnosis, Kidney Calculi epidemiology
Abstract

Background: Cystinuria is an inherited metabolic disease involving the defective transport of cystine and the dibasic amino acids in the renal proximal tubules that causes the formation of stones in the urinary system. In our regional child health program, cystinuria is included in newborn metabolic screening. Our objectives are the phenotypic characterization of our cystinuric pediatric cohort and to present our experience in neonatal cystinuria screening., Methods: The study of clinical cases of pediatric patients diagnosed with cystinuria over a period of 32 years. All patients were studied at demographic, clinical, laboratory, radiological, and therapeutic levels., Results: We diagnosed 86 pediatric patients with cystinuria; 36% of them had the homozygous biochemical phenotype. 95.3% of the patients were detected by neonatal metabolic screening. We performed urine biochemical analyses of parents with additional diagnoses of 63 adult patients. The mean follow-up time was 16.8 ± 8.5 years. 11.6% of patients developed one or more episodes of urinary tract infection during that period. Chronic kidney disease, proteinuria, and hypertension were uncommon (1.2%). 10.5% developed kidney stones at the mean age of presentation of 7.78 ± 7.6 years; 33% were recurrent. The risk of developing lithiasis was higher for homozygous biochemical-phenotype patients. Hypercalciuria was a significant risk factor in the development of lithiasis., Conclusions: Our clinical data suggest that diagnosing cystinuria through neonatal screening could be a useful strategy for the detection of presymptomatic cases, in order to establish preventive measures, as well as for the detection of relatives at risk. A higher resolution version of the Graphical abstract is available as Supplementary information., (© 2022. The Author(s), under exclusive licence to International Pediatric Nephrology Association.)

Published
2023
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39. Cystine Renal Calculi: New Aspects Related to Their Formation and Development.

Author

Grases, Felix, Tomàs Nadal, Francisca, Julià Florit, Francesca, and Costa-Bauza, Antonia

Subjects
KIDNEY stones, CYSTINE, URIC acid, CALCIUM oxalate, CRYSTAL morphology, DRINKING (Physiology)
Abstract

Background: Crystallization experiments of renal-calculi-forming compounds (calcium oxalate, calcium phosphates, uric acid) are normally performed by monitoring these processes during periods of time similar to the residence of urine inside the kidney. Nevertheless, cystine requires high supersaturation for its crystallization, and most experiments last for longer periods. It must be considered that at high supersaturation, the inhibitors of crystalline development have poor effects. Methods: The induction time of crystallization (ti) of cystine in experimental conditions similar to those of the formation of cystine renal calculi and the effect of different cystine-binding thiol agents was determined through turbidimetric measurements. We also studied the macro- and microstructure of 30 cystine kidney stones through stereoscopic microscopy and scanning electron microscopy. Results: Under the studied conditions, the ti in absence of crystallization inhibitors was 15 min, and the presence of 9 mM of penicillamine, tiopronin, or N-acetylcysteine totally inhibited crystallization, as their effects relate to the formation of complexes with cystine, although N-acetylcysteine also delayed cystine crystalline development and modified cystine crystal morphology. Cystine stones have traditionally been classified as smooth and rough. The study of their structure shows that all of them begin their formation from a few crystals that generate a compact radial structure. Their subsequent growth, depending on the renal cavity where they are located, gives rise to the rough structure in the form of large blocks of cystine crystals or the smooth structure with small crystals. Conclusions: To prevent the development of cystine renal stones, the formation of small crystals must be avoided by reducing urinary cystine supersaturation, with N-acetylcysteine being the most effective among the studied cystine-binding thiol agents. Also, the removal of cystine crystals through increased water intake and physical activity can be a very important preventive measure. [ABSTRACT FROM AUTHOR]

Published
2024
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40. Review of childhood genetic nephrolithiasis and nephrocalcinosis.

Author

Gefen, Ashley M. and Zaritsky, Joshua J.

Subjects
KIDNEY stones, KIDNEY calcification, GENETIC disorders, GENOME-wide association studies, GENETIC variation
Abstract

Nephrolithiasis (NL) is a common condition worldwide. The incidence of NL and nephrocalcinosis (NC) has been increasing, along with their associated morbidity and economic burden. The etiology of NL and NC is multifactorial and includes both environmental components and genetic components, with multiple studies showing high heritability. Causative gene variants have been detected in up to 32% of children with NL and NC. Children with NL and NC are genotypically heterogenous, but often phenotypically relatively homogenous, and there are subsequently little data on the predictors of genetic childhood NL and NC. Most genetic diseases associated with NL and NC are secondary to hypercalciuria, including those secondary to hypercalcemia, renal phosphate wasting, renal magnesium wasting, distal renal tubular acidosis (RTA), proximal tubulopathies, mixed or variable tubulopathies, Bartter syndrome, hyperaldosteronism and pseudohyperaldosteronism, and hyperparathyroidism and hypoparathyroidism. The remaining minority of genetic diseases associated with NL and NC are secondary to hyperoxaluria, cystinuria, hyperuricosuria, xanthinuria, other metabolic disorders, and multifactorial etiologies. Genome-wide association studies (GWAS) in adults have identified multiple polygenic traits associated with NL and NC, often involving genes that are involved in calcium, phosphorus, magnesium, and vitamin D homeostasis. Compared to adults, there is a relative paucity of studies in children with NL and NC. This review aims to focus on the genetic component of NL and NC in children. [ABSTRACT FROM AUTHOR]

Published
2024
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41. The rBAT gene is responsible for L-cystine uptake via the b0,(+)-like amino acid transport system in a 'renal proximal tubular' cell line (OK cells).

Author

Mora, C, Chillarón, J, Calonge, M J, Forgo, J, Testar, X, Nunes, V, Murer, H, Zorzano, A, Palacín, M, Mora, C, Chillarón, J, Calonge, M J, Forgo, J, Testar, X, Nunes, V, Murer, H, Zorzano, A, and Palacín, M

Abstract

Several studies have shown that the cRNA of human, rabbit, or rat rBAT induces in Xenopus oocytes sodium-independent, high affinity uptake of L-cystine via a system b0,(+)-like amino acid exchanger. We have shown that mutations in rBAT cause type I cystinuria (Calonge, M. J., Gasparini, P., Chillarón, J., Chillón, M., Gallucci, M., Rousaud, F., Zelante, L., Testar, X., Dallapiccola, B., Di Silverio, F., Barceló, P., Estivill, X., Zorzano, A., Nunes, V., and Palacín, M. (1994) Nat. Genet. 6, 420-425; Calonge, M. J., Volipini, V., Bisceglia, L., Rousaud, F., De Sanctis, L., Beccia, E., Zelante, L., Testar, X., Zorzano, A., Estivill, X., Gasparini, P., Nunes, V., and Palacín, M. (1995) Proc. Natl. Acad. Sci. U. S. A. 92, 9667-9671). Apart from oocytes, no other expression system has been used for transfection of functional rBAT activity. Furthermore, the b0,(+)-like transport activity has not been clearly described in the kidney or intestine. Here, we report that a "proximal tubular-like" cell line derived from opossum kidney (OK cells) expresses an rBAT transcript. Poly(A)+ RNA from OK cells induced by system b0,(+)-like transport activity in oocytes. This was hybrid-depleted by human rBAT antisense oligonucleotides. A polymerase chain reaction-amplified cDNA fragment (approximately 700 base pairs) from OK cell RNA corresponds to an rBAT protein fragment 65-69% identical to those from human, rabbit and rat kidneys. We have also examined transport of l-cystine in OK cells and found characteristics very similar to the amino acid exchanger activity induced by rBAT cRNA in oocytes. Uptake of L-cystine was of high affinity, sodium-independent and shared with L-arginine and L-leucine. It was trans-stimulated by amino acids with the same specificity as rBAT-induced transport activity in oocytes. Furthermore, it was localized to the apical pole of confluent OK cells. To demonstrate that the rBAT protein is functionally related to this transport activity, we have transfected O

Published
1996

42. Genome-wide analysis of the Siboney de Cuba cattle breed: genetic characterization and framing with cattle breeds worldwide.

Author

Cendron, Filippo, Ledesma-Rodríguez, Anel, Mastrangelo, Salvatore, Sardina, Maria Teresa, Díaz-Herrera, Dervel Felipe, Reinosa, Odalys Uffo, Cassandro, Martino, and Penasa, Mauro

Subjects
CATTLE genetics, CATTLE breeds, CATTLE breeding, DNA copy number variations, GENETIC variation, REPRODUCTIVE isolation, CATTLE
Abstract

Crossbreeding has been employed to address environmental challenges. One successful example is the Siboney de Cuba, developed in response to economic challenges in the 1960s. The aim of this study was to perform the first genomic characterization of the Siboney de Cuba breed, a successful hybrid breed resulting from the crossbreeding of Cuban Zebu and Holstein, using SNP array chip. For this purpose, 48 Siboney de Cuba cattle samples were collected and genotyped with the GGP Bovine 100k BeadChip, resulting in 83,314 SNPs after quality control. The genetic diversity was investigated using observed and expected heterozygosity, inbreeding coefficient, and minor allele frequency. Runs of homozygosity (ROH) analysis provided insights into molecular inbreeding. Additionally, the study investigated copy number variants (CNV), identifying CNV regions and their distribution. The genetic relationship and population structure of Siboney de Cuba were analyzed in comparison with worldwide cattle populations using ADMIXTURE, multidimensional scaling, and phylogenetic analysis. Six ROH islands containing a total of 50 genes were discovered, some of which were uncharacterized loci. Furthermore, 792 CNV with higher occurrence of genetic material loss were observed. The overall genome coverage for CNV regions was 2.16%. The Siboney de Cuba exhibited a good level of genetic variability with high heterozygosity and low inbreeding when compared with other cattle breeds worldwide. Also, the breed shared genetic similarity to hybrids from America and Bos indicus from Africa and highlighted a moderate level of genetic isolation with some overlaps with Bos taurus from America. The breed showed a complex genetic composition, influenced by historical factors. Overall, findings of the present study contribute to the understanding of genomic structure of Siboney de Cuba cattle breed. [ABSTRACT FROM AUTHOR]

Published
2024
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43. SLC2A9 rs16890979 reduces uric acid absorption by kidney organoids.

Author

Shouhai Wu, Chuang Li, Yizhen Li, Junyi Liu, Cuiping Rong, Hongfei Pei, Xiong Li, Xiang Zeng, and Wei Mao

Subjects
URIC acid, ORGANOIDS, KIDNEY tubules, KIDNEYS, SINGLE nucleotide polymorphisms, DRUG metabolism, TUMOR lysis syndrome
Abstract

Introduction: The excretion and absorption of uric acid (UA) by the kidneys helps regulate serum UA levels. GLUT9, encoded by SLC2A9, is mainly expressed in the renal tubules responsible for UA absorption. SLC2A9 polymorphisms are associated with different serum UA levels. However, the lack of proper in vitro models has stalled research on the mechanisms of single nucleotide polymorphisms (SNPs) that affect UA metabolism in human urate transporters. Methods: In this study, we constructed a gene-edited human embryonic stem cells-9 (ESC-H9) derived kidney organoid bearing rs16890979, an SLC2A9 missense mutation with undetermined associations with hyperuricemia or hypouricemia. Kidney organoids derived from ESC-H9 with genetical overexpression (OE) and low expression (shRNA) of SLC2A9 to serve as controls to study the function of SLC2A9. The function of rs16890979 on UA metabolism was evaluated after placing the organoids to urate-containing medium and following histopathological analysis. Results: The kidney organoids with heterozygous or homozygous rs16890979 mutations showed normal SLC2A9 expression levels and histological distribution, phenotypically similar to the wild-type controls. However, reduced absorption of UA by the kidney organoids with rs16890979 mutants was observed. This finding together with the observation that UA absorption is increased in organoids with SLC2A9 overexpression and decreased in those with SLC2A9 knockdown, suggest that GLUT9 is responsible for UA absorption, and the rs16890979 SNP may compromise this functionality. Moreover, epithelial-mesenchymal transition (EMT) was detected in organoids after UA treatment, especially in the kidney organoid carrying GLUT9OE, suggesting the cytobiological mechanism explaining the pathological features in hyperuricosuria-related renal injury. Discussion: This study showing the transitional value of kidney organoid modeling the function of SNPs on UA metabolism. With a defined genetic background and a confirmed UA absorption function should be useful for studies on renal histological, cellular, and molecular mechanisms with this organoid model. [ABSTRACT FROM AUTHOR]

Published
2024
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44. Heteromeric Amino Acid Transporters in Brain: from Physiology to Pathology.

Author

Errasti-Murugarren E and Palacín M

Subjects
Amino Acids metabolism, Biological Transport, Blood-Brain Barrier metabolism, Humans, Amino Acid Transport Systems metabolism
Abstract

In humans, more than 50 transporters are responsible for the traffic and balance of amino acids within and between cells and tissues, and half of them have been associated with disease [1]. Covering all common amino acids, Heteromeric Amino acid Transporters (HATs) are one class of such transporters. This review first highlights structural and functional studies that solved the atomic structure of HATs and revealed molecular clues on substrate interaction. Moreover, this review focuses on HATs that have a role in the central nervous system (CNS) and that are related to neurological diseases, including: (i) LAT1/CD98hc and its role in the uptake of branched chain amino acids trough the blood brain barrier and autism. (ii) LAT2/CD98hc and its potential role in the transport of glutamine between plasma and cerebrospinal fluid. (iii) y + LAT2/CD98hc that is emerging as a key player in hepatic encephalopathy. xCT/CD98hc as a potential therapeutic target in glioblastoma, and (iv) Asc-1/CD98hc as a potential therapeutic target in pathologies with alterations in NMDA glutamate receptors., (© 2021. The Author(s), under exclusive licence to Springer Science+Business Media, LLC part of Springer Nature.)

Published
2022
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45. The zebrafish cationic amino acid transporter/glycoprotein-associated family: sequence and spatiotemporal distribution during development of the transport system b 0,+ (slc3a1/slc7a9).

Author

Ellingsen S, Narawane S, Fjose A, Verri T, and Rønnestad I

Subjects
Animals, Cystine metabolism, Glycoproteins, Phylogeny, Zebrafish genetics, Zebrafish metabolism, Amino Acid Transport Systems, Basic genetics, Amino Acids, Neutral, Zebrafish physiology
Abstract

System b 0,+ absorbs lysine, arginine, ornithine, and cystine, as well as some (large) neutral amino acids in the mammalian kidney and intestine. It is a heteromeric amino acid transporter made of the heavy subunit SLC3A1/rBAT and the light subunit SLC7A9/b 0,+ AT. Mutations in these two genes can cause cystinuria in mammals. To extend information on this transport system to teleost fish, we focused on the slc3a1 and slc7a9 genes by performing comparative and phylogenetic sequence analysis, investigating gene conservation during evolution (synteny), and defining early expression patterns during zebrafish (Danio rerio) development. Notably, we found that slc3a1 and slc7a9 are non-duplicated in the zebrafish genome. Whole-mount in situ hybridization detected co-localized expression of slc3a1 and slc7a9 in pronephric ducts at 24 h post-fertilization and in the proximal convoluted tubule at 3 days post-fertilization (dpf). Notably, both the genes showed co-localized expression in epithelial cells in the gut primordium at 3 dpf and in the intestine at 5 dpf (onset of exogenous feeding). Taken together, these results highlight the value of slc3a1 and slc7a9 as markers of zebrafish kidney and intestine development and show promise for establishing new zebrafish tools that can aid in the rapid screening(s) of substrates. Importantly, such studies will help clarify the complex interplay between the absorption of dibasic amino acids, cystine, and (large) neutral amino acids and the effect(s) of such nutrients on organismal growth., (© 2021. The Author(s).)

Published
2021
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46. Integration of exome sequencing and metabolic evaluation for the diagnosis of children with urolithiasis.

Author

Zhao Y, Fang X, Fan Y, Sun Y, He L, Xu M, Xu G, Li Y, Huang Y, Yu Y, and Geng H

Subjects
Child, Preschool, Female, Humans, Infant, Male, Retrospective Studies, Urolithiasis genetics, Urolithiasis metabolism, Exome Sequencing, Urolithiasis diagnosis
Abstract

Purpose: To investigate the prevalence of inherited causes in an early onset urolithiasis cohort and each metabolic subgroup., Methods: A retrospective analysis of both metabolic and genomic data was performed for the first 105 pediatric urolithiasis patients who underwent exome sequencing at our hospital from February 2016 to October 2018. Measurements included the diagnostic yield of exome sequencing in the entire cohort and each metabolic subgroup (hyperoxaluria, hypocitraturia, hypercalciuria, hyperuricosuria and cystine stone subgroups). The conformity between molecular diagnoses and metabolic evaluation was also evaluated., Results: The present study involved a cohort of 105 pediatric patients with urolithiasis, from which diagnostic variants were identified in 38 patients (36%), including 27 primary hyperoxaluria and 11 cystinuria. In the metabolic subgroup analyses, 41% hyperoxaluria cases were primary hyperoxaluria caused by monogenic defects, and 100% of the causes of cystine stones could be explained by monogenic defects. However, no appropriate inherited causes were identified for hypocitraturia, hypercalciuria, or hyperuricosuria in the cohort. A high conformity (100%) was obtained between the molecular diagnoses and metabolic evaluation., Conclusion: Exome sequencing in a cohort of 105 pediatric patients with urolithiasis yielded a genetic diagnosis in 36% of cases and the molecular diagnostic yield varies substantially across different metabolic abnormalities., (© 2020. Springer-Verlag GmbH Germany, part of Springer Nature.)

Published
2021
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47. Novel compound heterozygous pathogenic variants in the SLC3A1 gene in a Chinese family with cystinuria.

Author

Liu, Danhua, Zhao, Yongli, Xue, Xia, Hou, Xinyue, Xu, Hongen, Zhao, Xinghua, Tian, Yongan, Tang, Wenxue, Guo, Jiancheng, and Xu, Changbao

Subjects
GENETIC variation, GENE families, CHINESE people, KIDNEY tubules, GENETIC counseling, GLYCOGEN storage disease type II
Abstract

Background: Cystinuria is an autosomal recessive disorder characterized by a cystine transport deficiency in the renal tubules due to mutations in two genes: SLC3A1 and SLC7A9. Cystinuria can be classified into three forms based on the genotype: type A, due to mutations in the SLC3A1 gene; type B, due to mutations in the SLC7A9 gene; and type AB, due to mutations in both genes. Methods: We report a 12-year-old boy from central China with cystine stones. He was from a non-consanguineous family that had no known history of genetic disease. A physical examination showed normal development and neurological behaviors. Whole-exome and Sanger sequencing were used to identify and verify the suspected pathogenic variants. Results: The compound heterozygous variants c.898_905del (p.Arg301AlafsTer6) is located in exon5 and c.1898_1899insAT (p.Asp634LeufsTer46) is located in exon10 of SLC3A1 (NM_000341.4) were deemed responsible for type A cystinuria family. The variant c.898_905del was reported in a Japanese patient in 2000, and the variant c.1898_1899insAT is novel. Conclusion: A novel pathogenic heterozygous variant pair of the SLC3A1 gene was identified in a Chinese boy with type A cystinuria, enriching the mutational spectrum of the SLC3A1 gene. We attempted to find a pattern for the association between the genotype of SLC3A1 variants and the manifestations of cystinuria in patients with different onset ages. Our findings have important implications for genetic counseling and the early clinical diagnosis of cystinuria. [ABSTRACT FROM AUTHOR]

Published
2023
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48. Exploring the Contribution of the Transporter AGT1/rBAT in Cystinuria Progression: Insights from Mouse Models and a Retrospective Cohort Study.

Author

Mayayo-Vallverdú, Clara, Prat, Esther, Vecino-Pérez, Marta, González, Laura, Gràcia-Garcia, Silvia, San Miguel, Luz, Lopera, Noelia, Arias, Angela, Artuch, Rafael, López de Heredia, Miguel, Torrecilla, Carlos, Rousaud-Barón, Ferran, Angerri, Oriol, Errasti-Murugarren, Ekaitz, and Nunes, Virginia

Subjects
MICE, LABORATORY mice, MISSENSE mutation, COHORT analysis, RETROSPECTIVE studies, CYSTINE
Abstract

More than 20 years have passed since the identification of SLC3A1 and SLC7A9 as causative genes for cystinuria. However, cystinuria patients exhibit significant variability in the age of lithiasis onset, recurrence, and response to treatment, suggesting the presence of modulatory factors influencing cystinuria severity. In 2016, a second renal cystine transporter, AGT1, encoded by the SLC7A13 gene, was discovered. Although it was discarded as a causative gene for cystinuria, its possible effect as a modulatory gene remains unexplored. Thus, we analyzed its function in mouse models of cystinuria, screened the SLC7A13 gene in 34 patients with different lithiasic phenotypes, and functionally characterized the identified variants. Mice results showed that AGT1/rBAT may have a protective role against cystine lithiasis. In addition, among the four missense variants detected in patients, two exhibited a 25% impairment in AGT1/rBAT transport. However, no correlation between SLC7A13 genotypes and lithiasis phenotypes was observed in patients, probably because these variants were found in heterozygous states. In conclusion, our results, consistent with a previous study, suggest that AGT1/rBAT does not have a relevant effect on cystinuria patients, although an impact in patients carrying homozygous pathogenic variants cannot be discarded. [ABSTRACT FROM AUTHOR]

Published
2023
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49. Clinical Course and Mutational Analysis of Patients with Cystine Stone: A Single-Center Experience.

Author

Jeong, Jae Yong, Oh, Kyung Jin, Sohn, Jun Seok, Jun, Dae Young, Shin, Jae Il, Lee, Keum Hwa, and Lee, Joo Yong

Subjects
CYSTINE, KOREANS, GENETIC disorders, SYMPTOMS, MEDICAL centers
Abstract

Cystinuria is a known genetic disorder. To date, two genes, SLC3A1 and SLC7A9, have been identified as causes of cystinuria. In this study of 10 patients with cystinuria, which is the largest Korean cohort ever studied, we examined the patients' phenotypes, clinical courses, and genetic analyses. A total of 10 patients with cystinuria diagnosed with cystine stones in a single tertiary medical center (Severance Hospital, Seoul, Republic of Korea) from April 2000 to July 2023 were included in the study. All of the patients participated in mutational studies, and the clinical presentation and consecutive laboratory findings of the patients were analyzed retrospectively. After the initial stone-related surgery or procedure at our hospital, 6 of the 10 patients underwent additional surgery at least once for recurrent stones. Genetic analyses identified six new mutations, of which only two patients had type B mutations. The most common genotype was compound heterozygous type A. We investigated the genotypes and clinical courses of 10 Korean patients with cystinuria who had not been previously reported. More data are needed to statistically analyze the genotype and phenotype of cystinuria. [ABSTRACT FROM AUTHOR]

Published
2023
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50. Heteromeric Solute Carriers: Function, Structure, Pathology and Pharmacology.

Author

Fairweather SJ, Shah N, and Brӧer S

Subjects
Dimerization, Humans, Amino Acids metabolism
Abstract

Solute carriers form one of three major superfamilies of membrane transporters in humans, and include uniporters, exchangers and symporters. Following several decades of molecular characterisation, multiple solute carriers that form obligatory heteromers with unrelated subunits are emerging as a distinctive principle of membrane transporter assembly. Here we comprehensively review experimentally established heteromeric solute carriers: SLC3-SLC7 amino acid exchangers, SLC16 monocarboxylate/H + symporters and basigin/embigin, SLC4A1 (AE1) and glycophorin A exchanger, SLC51 heteromer Ost α-Ost β uniporter, and SLC6 heteromeric symporters. The review covers the history of the heteromer discovery, transporter physiology, structure, disease associations and pharmacology - all with a focus on the heteromeric assembly. The cellular locations, requirements for complex formation, and the functional role of dimerization are extensively detailed, including analysis of the first complete heteromer structures, the SLC7-SLC3 family transporters LAT1-4F2hc, b 0,+ AT-rBAT and the SLC6 family heteromer B 0 AT1-ACE2. We present a systematic analysis of the structural and functional aspects of heteromeric solute carriers and conclude with common principles of their functional roles and structural architecture.

Published
2021
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