Your search keyword '"Mariotta, L."' showing total 16 results

1. Exocrine pancreas glutamate secretion help to sustain enterocyte nutritional needs under protein restriction

Author

Araya, S., primary, Kuster, E., additional, Gluch, D., additional, Mariotta, L., additional, Lutz, C., additional, Reding, T. V., additional, Graf, R., additional, Verrey, F., additional, and Camargo, S. M. R., additional

Published

2018

2. Tissue-specific alterations in thyroid hormone homeostasis in combined Mct10 and Mct8 deficiency

Author

Müller, J. (Julia), Mayerl, S. (Steffen), Visser, T.J. (Theo), Darras, V.M. (Veerle), Boelen, A. (Anita), Frappart, L. (Lucien), Mariotta, L. (Luca), Verrey, F., Heuer, H. (Heike), Müller, J. (Julia), Mayerl, S. (Steffen), Visser, T.J. (Theo), Darras, V.M. (Veerle), Boelen, A. (Anita), Frappart, L. (Lucien), Mariotta, L. (Luca), Verrey, F., and Heuer, H. (Heike)

Abstract

The monocarboxylate transporter Mct10 (Slc16a10; T-type amino acid transporter) facilitates the cellular transport of thyroid hormone (TH) and shows an overlapping expression with the wellestablished TH transporter Mct8. Because Mct8 deficiency is associated with distinct tissue-specific alterations in TH transport and metabolism, we speculated that Mct10 inactivation may compromise the tissue-specific TH homeostasis as well. However, analysis of Mct10 knockout (ko) mice revealed normal serum TH levels and tissue TH content in contrast to Mct8 ko mice that are characterized by high serum T3, low serum T4, decreased brain TH content, and increased tissue TH concentrations in the liver, kidneys, and thyroid gland. Surprisingly, mice deficient in both TH transporters (Mct10/Mct8 double knockout [dko] mice) showed normal serum T4 levels in the presence of elevated serum T 3, indicating that the additional inactivation of Mct10 partially rescues the phenotype of Mct8 ko mice. As a consequence of the normal serum T4, brain T4 content and hypothalamic TRH expression were found to be normalized in the Mct10/Mct8 dko mice. In contrast, the hyperthyroid situation in liver, kidneys, and thyroid gland of Mct8 ko mice was even more severe in Mct10/Mct8 dko animals, suggesting that in these organs, both transporters contribute to the TH efflux. In summary, our data indicate that Mct10 indeed participates in tissue-specific TH transport and also contributes to the generation of the unusual serum TH profile characteristic for Mct8 deficiency. Copyright

Published

2014

3. L-glutamate secretion in the pancreatic juice involves transport and metabolism of neutral amino acids in exocrine pancreas and is influenced by the content of protein in the diet

Author

Araya, S., primary, Lutz, C., additional, Mariotta, L., additional, Núñez-Villena, F., additional, Huggel, K., additional, Herzog, B., additional, Verrey, F., additional, Graf, T.R., additional, Graf, R., additional, and Camargo, S.M.R., additional

Published

2013

4. T-type amino acid transporter TAT1 (Slc16a10) is essential for extracellular aromatic amino acid homeostasis control

Author

Mariotta, L., Tamara Ramadan, Singer, D., Guetg, A., Herzog, B., Stoeger, C., Palacin, M., Tony Lahoutte, Simone Camargo, François Verrey, Medical Imaging and Physical Sciences, Medical Imaging, University of Zurich, and Verrey, François

Subjects

Amino Acid Transport System y+, Fusion Regulatory Protein 1, Heavy Chain, Genotype, 610 Medicine & health, Kidney, 10052 Institute of Physiology, Amino Acids, Aromatic, Mice, Intestine, Small, Integrative, Animals, Homeostasis, RNA, Messenger, Muscle, Skeletal, Mice, Knockout, Mice, Inbred C3H, Fusion Regulatory Protein 1, Light Chains, Epithelial Cells, 1314 Physiology, TAT1, Mice, Inbred C57BL, Amino Acid Transport Systems, Neutral, Phenotype, Liver, 10076 Center for Integrative Human Physiology, 570 Life sciences, biology, Dietary Proteins, Perspectives

Abstract

The uniporter TAT1 (Slc16a10) mediates the facilitated diffusion of aromatic amino acids across basolateral membranes of kidney, small intestine and liver epithelial cells and across the plasma membrane of non-epithelial cells like skeletal myocytes. Its role for body amino acid homeostasis was now investigated using newly generated TAT1 (Slc16a10) defective mice (tat1-/-). These mice grow and reproduce normally, show no gross phenotype and no obvious neurological defect. Histological analysis did not reveal abnormalities and there is no compensatory change in any tested amino acid transporter mRNA. TAT1 null mice display however increased plasma, muscle and kidney aromatic amino acid concentration under both normal and high protein diet, although this concentration remains normal in liver. A major aromatic aminoaciduria and a smaller urinary loss of all substrates additionally transported by L-type amino acid antiporter Lat2-4F2hc (Slc7a8) were revealed under high protein diet. This suggests an epithelial transport defect as also shown by the accumulation of intravenously injected 123I-2-I-L-Phe in kidney and of 3H-L-Phe in ex vivo everted gut sac enterocytes. Taken together, these data indicate that the uniporter TAT1 is required to equilibrate the concentration of aromatic amino acids across specific membranes. For instance, it enables hepatocytes to function as sink that controls the extracellular aromatic amino acid concentration. Additionally, it facilitates the release of aromatic amino acids across the basolateral membrane of small intestine and proximal kidney tubule epithelial cells, thereby allowing the efflux of other neutral amino acids presumably via Lat2-4F2hc.

5. Good Manufacturing Practice-Compliant Cryopreserved and Thawed Native Adipose Tissue Ready for Fat Grafting.

Author

Rusconi G, Cremona M, Gallazzi M, Mariotta L, Gola M, Gandolfi E, Malacco M, and Soldati G

Abstract

Background : As adipose tissue-derived mesenchymal stem cells are becoming the tool of choice for many clinical applications; standardized cryopreservation protocols are necessary to deliver high-quality samples. For this purpose, the cryopreservation and thawing of native adipose tissue under GMP conditions could represent an extremely useful and powerful tool for the direct reinfusion of the tissue, and consequently, of its stromal vascular fraction. Methods : In this study, 19 samples of adipose tissue were cryopreserved and characterized before and after storage in liquid nitrogen vapors. Of these 19 samples, 14 were processed in research and 5 in a GMP-compliant environment. Storage with and without cryopreservation medium was also evaluated. After one week to three months of storage, samples were thawed, washed, enzymatically digested, and characterized with flow cytometry. Results : The results show that there is a loss of nearly 50% of total nucleated cells during the cryopreservation/thawing process. Non-GMP and GMP samples are comparable for all parameters analyzed. This study also allowed us to exclude the cryopreservation of adipose tissue without any cryopreservation medium. Conclusions : The data shown in this work are consistent with the idea that native adipose tissue, if properly processed and controlled, could be a useful source of cells for regenerative medicine, keeping in mind that there is a clear difference in the quality between fresh and thawed samples.

Published

2024

6. Processing Adipose Tissue Samples in a GMP Environment Standardizes the Use of SVF in Cell Therapy Treatments: Data on 302 Patients.

Author

Cremona M, Rusconi G, Ferrario A, Mariotta L, Gola M, and Soldati G

Abstract

Stromal vascular fraction (SVF) cells, together with adipose-derived mesenchymal stem cells, are becoming the tool of choice for many clinical applications. Currently, nearly 200 clinical trials are running worldwide to prove the efficacy of this cell type in treating many diseases and pathological conditions. To reach the goals of cell therapies and produce ATMPs as drugs for regenerative medicine, it is necessary to properly standardize GMP processes and, thus, collection methods, transportation strategies, extraction protocols, and characterization procedures, without forgetting that all the tissues of the human body are characterized by a wide inter-individual variability which is genetically determined and acquired during life. Here, we compare 302 samples processed under GMP rules to exclude the influence of the operator and of the anatomical site of collection. The influence of variability in the ages and genders of patients, along with laboratory parameters such as total cell number, cell viability, stem cell number, and other stromal vascular fraction cell subpopulations, has been compared. The results show that when the laboratory protocol is standardized, the variability of quantifiable cell parameters is widely statistically non-significant, meaning that we can take a further step toward standardized advanced cell therapy products.

Published

2023

7. Upgrading Monocytes Therapy for Critical Limb Ischemia Patient Treatment: Pre-Clinical and GMP-Validation Aspects.

Author

Rusconi G, Cusumano G, Mariotta L, Canevascini R, Gola M, Gornati R, and Soldati G

Subjects

Humans, Leukocytes, Mononuclear, Monocytes, Chronic Limb-Threatening Ischemia, Serum Albumin, Human, Nitrogen, Biological Products, Synthetic Drugs

Abstract

Advanced cell therapy medicinal products (ATMP) are at the forefront of a new range of biopharmaceuticals. The use of ATMP has evolved and increased in the last decades, representing a new approach to treating diseases that are not effectively managed with conventional treatments. The standard worldwide recognized for drug production is the Good Manufacturing Practices (GMP), widely used in the pharma production of synthesized drugs but applying also to ATMP. GMP guidelines are worldwide recognized standards to manufacture medicinal products to guarantee high quality, safety, and efficacy. In this report, we describe the pre-clinical and the GMP upgrade of peripheral blood mononuclear cell (PBMC) preparation, starting from peripheral blood and ending up with a GMP-grade clinical product ready to be used in patients with critical limb ischemia (CLI). We also evaluated production in hypoxic conditions to increase PBMC functional activity and angiogenic potential. Furthermore, we extensively analyzed the storage and transport conditions of the final product as required by the regulatory body for ATMPs. Altogether, results suggest that the whole manufacturing process can be performed for clinical application. Peripheral blood collected by a physician should be transported at room temperature, and PBMCs should be isolated in a clean room within 8 h of venipuncture. Frozen cells can be stored in nitrogen vapors and thawed for up to 12 months. PBMCs resuspended in 5% human albumin solution should be stored and transported at 4 °C before injection in patients within 24 h to thawing. Hypoxic conditioning of PBMCs should be implemented for clinical application, as it showed a significant enhancement of PBMC functional activity, in particular with increased adhesion, migration, and oxidative stress resistance. We demonstrated the feasibility and the quality of a GMP-enriched suspension of monocytes as an ATMP, tested in a clean room facility for all aspects related to production in respect of all the GMP criteria that allow its use as an ATMP. We think that these results could ease the way to the clinical application of ATMPs.

Published

2022

8. Inter-center comparison of good manufacturing practices-compliant stromal vascular fraction and proposal for release acceptance criteria: a review of 364 productions.

Author

François P, Rusconi G, Arnaud L, Mariotta L, Giraudo L, Minonzio G, Veran J, Bertrand B, Dumoulin C, Grimaud F, Lyonnet L, Casanova D, Giverne C, Cras A, Magalon G, Dignat-George F, Sabatier F, Magalon J, and Soldati G

Subjects

Cell Survival, Retrospective Studies, Stromal Cells, Adipose Tissue, Endothelial Cells

Abstract

Background: Even though the manufacturing processes of the stromal vascular fraction for clinical use are performed in compliance with the good manufacturing practices applying to advanced therapy medicinal products, specifications related to stromal vascular fraction quality remain poorly defined. We analyzed stromal vascular fraction clinical batches from two independent good manufacturing practices-compliant manufacturing facilities, the Swiss Stem Cell Foundation (SSCF) and Marseille University Hospitals (AP-HM), with the goal of defining appropriate and harmonized release acceptance criteria., Methods: This retrospective analysis reviewed the biological characteristics of 364 batches of clinical-grade stromal vascular fraction. Collected data included cell viability, recovery yield, cell subset distribution of stromal vascular fraction, and microbiological quality., Results: Stromal vascular fraction from SSCF cohort demonstrated a higher viability (89.33% ± 4.30%) and recovery yield (2.54 × 10 5 ± 1.22 × 10 5 viable nucleated cells (VNCs) per mL of adipose tissue) than stromal vascular fraction from AP-HM (84.20% ± 5.96% and 2.25 × 10 5 ± 1.11 × 10 5 VNCs per mL). AP-HM batches were significantly less contaminated (95.71% of sterile batches versus 74.15% for SSCF batches). The cell subset distribution was significantly different (higher proportion of endothelial cells and lower proportion of leukocytes and pericytes in SSCF cohort)., Conclusions: Both centers agreed that a good manufacturing practices-compliant stromal vascular fraction batch should exert a viability equal or superior to 80%, a minimum recovery yield of 1.50 × 10 5 VNCs per mL of adipose tissue, a proportion of adipose-derived stromal cells at least equal to 20%, and a proportion of leukocytes under 50%. In addition, a multiparameter gating strategy for stromal vascular fraction analysis is proposed.

Published

2021

9. Tenogenic differentiation protocol in xenogenic-free media enhances tendon-related marker expression in ASCs.

Author

Stanco D, Caprara C, Ciardelli G, Mariotta L, Gola M, Minonzio G, and Soldati G

Subjects

Adipose Tissue cytology, Antigens, Differentiation biosynthesis, Female, Gene Expression Regulation drug effects, Humans, Male, Mesenchymal Stem Cells cytology, Tendons cytology, Adipose Tissue metabolism, Cell Differentiation drug effects, Culture Media chemistry, Culture Media pharmacology, Mesenchymal Stem Cells metabolism, Tendons metabolism

Abstract

Adipose-derived stem cells (ASCs) are multipotent and immune-privileged mesenchymal cells, making them ideal candidates for therapeutic purposes to manage tendon disorders. Providing safe and regulated cell therapy products to patients requires adherence to good manufacturing practices. To this aim we investigated the in vitro tenogenic differentiation potential of ASCs using a chemically defined serum-free medium (SF) or a xenogenic-free human pooled platelet lysate medium (hPL) suitable for cell therapy and both supplemented with CTGF, TGFβ-3, BMP-12 and ascorbic acid (AA) soluble factors. Human ASCs were isolated from 4 healthy donors and they were inducted to differentiate until 14 days in both hPL and SF tenogenic media (hPL-TENO and SF-TENO). Cell viability and immunophenotype profile were analysed to evaluate mesenchymal stem cell (MSC) characteristics in both xenogenic-free media. Moreover, the expression of stemness and tendon-related markers upon cell differentiation by RT-PCR, protein staining and cytofluorimetric analysis were also performed. Our results showed the two xenogenic-free media well support cell viability of ASCs and maintain their MSC nature as demonstrated by their typical immunophenototype profile and by the expression of NANOG, OCT4 and Ki67 genes. Moreover, both hPL-TENO and SF-TENO expressed significant high levels of the tendon-related genes SCX, COL1A1, COL3A1, COMP, MMP3 and MMP13 already at early time points in comparison to the respective controls. Significant up-regulations in scleraxis, collagen and tenomodulin proteins were also demonstrated at in both differentiated SF and hPL ASCs. In conclusion, we demonstrated firstly the feasibility of both serum and xenogenic-free media tested to culture ASCs moving forward the GMP-compliant approaches for clinical scale expansion of human MSCs needed for therapeutical application of stem cells. Moreover, a combination of CTGF, BMP-12, TGFβ3 and AA factors strongly and rapidly induce human ASCs to differentiate into tenocyte-like cells., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

10. Essential amino acid transporter Lat4 (Slc43a2) is required for mouse development.

Author

Guetg A, Mariotta L, Bock L, Herzog B, Fingerhut R, Camargo SM, and Verrey F

Subjects

Amino Acid Transport Systems, Neutral metabolism, Animals, Enterocytes metabolism, Humans, Intestine, Small metabolism, Kidney Tubules, Proximal metabolism, Mice, Mice, Inbred C57BL, Xenopus, Amino Acid Transport Systems, Neutral genetics, Fetal Growth Retardation genetics, Malnutrition genetics

Abstract

Amino acid (AA) uniporter Lat4 (Slc43a2) mediates facilitated diffusion of branched-chain AAs, methionine and phenylalanine, although its physiological role and subcellular localization are not known. We report that Slc43a2 knockout mice were born at expected Mendelian frequency but displayed an ∼10% intrauterine growth retardation and low amniotic fluid AAs, suggesting defective transplacental transport. Postnatal growth was strongly reduced, with premature death occurring within 9 days such that further investigations were made within 3 days of birth. Lat4 immunofluorescence showed a strong basolateral signal in the small intestine, kidney proximal tubule and thick ascending limb epithelial cells of wild-type but not Slc43a2 null littermates and no signal in liver and skeletal muscle. Experiments using Xenopus laevis oocytes demonstrated that Lat4 functioned as a symmetrical low affinity uniporter with a K₀.₅ of ∼5 mm for both in- and efflux. Plasma AA concentration was decreased in Slc43a2 null pups, in particular that of non-essential AAs alanine, serine, histidine and proline. Together with an increased level of plasma long chain acylcarnitines and a strong alteration of liver gene expression, this indicates malnutrition. Attempts to rescue pups by decreasing the litter size or by nutrients injected i.p. did not succeed. Radioactively labelled leucine but not lysine given per os accumulated in the small intestine of Slc43a2null pups, suggesting the defective transcellular transport of Lat4 substrates. In summary, Lat4 is a symmetrical uniporter for neutral essential AAs localizing at the basolateral side of (re)absorbing epithelia and is necessary for early nutrition and development., (© 2014 The Authors. The Journal of Physiology © 2014 The Physiological Society.)

Published

2015

11. The molecular mechanism of intestinal levodopa absorption and its possible implications for the treatment of Parkinson's disease.

Author

Camargo SM, Vuille-dit-Bille RN, Mariotta L, Ramadan T, Huggel K, Singer D, Götze O, and Verrey F

Subjects

Animals, Dogs, Humans, Madin Darby Canine Kidney Cells, Mice, Mice, Inbred C57BL, Xenopus, Amino Acid Transport Systems, Basic metabolism, Amino Acid Transport Systems, Neutral metabolism, Antiparkinson Agents pharmacokinetics, Intestinal Absorption, Intestine, Small metabolism, Levodopa pharmacokinetics

Abstract

Levodopa (L-DOPA) is the naturally occurring precursor amino acid for dopamine and the main therapeutic agent for neurologic disorders due to dopamine depletion, such as Parkinson's disease. l-DOPA absorption in small intestine has been suggested to be mediated by the large neutral amino acids transport machinery, but the identity of the involved transporters is unknown. Clinically, coadministration of l-DOPA and dietary amino acids is avoided to decrease competition for transport in intestine and at the blood-brain barrier. l-DOPA is routinely coadministered with levodopa metabolism inhibitors (dopa-decarboxylase and cathechol-O-methyl transferase inhibitors) that share structural similarity with levodopa. In this systematic study involving Xenopus laevis oocytes and Madin-Darby canine kidney epithelia expression systems and ex vivo preparations from wild-type and knockout mice, we identified the neutral and dibasic amino acids exchanger (antiporter) b(0,+)AT-rBAT (SLC7A9-SLC3A1) as the luminal intestinal l-DOPA transporter. The major luminal cotransporter (symporter) B(0)AT1 (SLC6A19) was not involved in levodopa transport. L-Leucine and L-arginine competed with levodopa across the luminal enterocyte membrane as expected for b(0,+)AT-rBAT substrates, whereas dopa-decarboxylase and cathechol-O-methyl transferase inhibitors had no effect. The presence of amino acids in the basolateral compartment mimicking the postprandial phase increased transepithelial levodopa transport by stimulating basolateral efflux via the antiporter LAT2-4F2 (SLC7A8-SLC3A2). Additionally, the aromatic amino acid uniporter TAT1 (SLC16A10) was shown to play a major role in l-DOPA efflux from intestinal enterocytes. These results identify the molecular mechanisms mediating small intestinal levodopa absorption and suggest strategies for optimization of delivery and absorption of this important prodrug., (Copyright © 2014 by The American Society for Pharmacology and Experimental Therapeutics.)

Published

2014

12. Frozen adipose-derived mesenchymal stem cells maintain high capability to grow and differentiate.

Author

Minonzio G, Corazza M, Mariotta L, Gola M, Zanzi M, Gandolfi E, De Fazio D, and Soldati G

Subjects

Adolescent, Adult, Cell Differentiation, Cell Proliferation, Cell Survival, Cells, Cultured, Female, Freezing, Humans, Middle Aged, Young Adult, Adipose Tissue cytology, Cryopreservation methods, Mesenchymal Stem Cells cytology

Abstract

In recent years, there has been a shift toward tissue-engineering strategies using stem cells for plastic and reconstructive surgical procedures. Therefore, it is important to develop safe and reproducible protocols for the extraction of adipose-derived stromal cells (ASCs) to allow cells to be stored in liquid nitrogen for future needs. The aspirated liposuction obtained from healthy donors were immediately processed after the suction using a protocol developed in our laboratory. The resulting stromal vascular fraction (SVF) was then characterized by the presence of adipose-derived stromal cells, at later stage frozen in liquid nitrogen. After that, cells were thawed and again characterized by adipose-derived stromal cells, cellular survival, differentiation ability and Colony Forming Unit-Fibroblast like colonies (CFU-F). Extraction and freezing of cells contained in the stromal vascular fraction demonstrate that thawed cells maintain the full capability to grow and differentiate in culture. The advent of adipose-derived stromal cells use in tissue engineering will assume a wide role in esthetic restoration in plastic surgery. It is thus important to develop clinically translatable protocols for the preparation and storage of adipose-derived stromal cells. Our results show that adipose-derived stromal cells in serum free can easily be frozen and stored in liquid nitrogen with retention of 85% of cell viability and 180,890 cell/g yield plus normal proliferative capacity and differentiation potential compared with fresh controls. These observations set the basis for adipose-derived stromal cells banking., (Copyright © 2014 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2014

13. Tissue-specific alterations in thyroid hormone homeostasis in combined Mct10 and Mct8 deficiency.

Author

Müller J, Mayerl S, Visser TJ, Darras VM, Boelen A, Frappart L, Mariotta L, Verrey F, and Heuer H

Subjects

Amino Acid Transport Systems, Neutral deficiency, Animals, Biological Transport genetics, Female, Genotype, Homeostasis, Hypothalamo-Hypophyseal System, In Situ Hybridization, Membrane Transport Proteins deficiency, Mice, Mice, Inbred C57BL, Mice, Knockout, Monocarboxylic Acid Transporters, Mutation, Organ Specificity, Symporters, Thyroid Gland metabolism, Thyroid Hormones metabolism, Amino Acid Transport Systems, Neutral genetics, Membrane Transport Proteins genetics, Thyroid Hormones blood

Abstract

The monocarboxylate transporter Mct10 (Slc16a10; T-type amino acid transporter) facilitates the cellular transport of thyroid hormone (TH) and shows an overlapping expression with the well-established TH transporter Mct8. Because Mct8 deficiency is associated with distinct tissue-specific alterations in TH transport and metabolism, we speculated that Mct10 inactivation may compromise the tissue-specific TH homeostasis as well. However, analysis of Mct10 knockout (ko) mice revealed normal serum TH levels and tissue TH content in contrast to Mct8 ko mice that are characterized by high serum T3, low serum T4, decreased brain TH content, and increased tissue TH concentrations in the liver, kidneys, and thyroid gland. Surprisingly, mice deficient in both TH transporters (Mct10/Mct8 double knockout [dko] mice) showed normal serum T4 levels in the presence of elevated serum T3, indicating that the additional inactivation of Mct10 partially rescues the phenotype of Mct8 ko mice. As a consequence of the normal serum T4, brain T4 content and hypothalamic TRH expression were found to be normalized in the Mct10/Mct8 dko mice. In contrast, the hyperthyroid situation in liver, kidneys, and thyroid gland of Mct8 ko mice was even more severe in Mct10/Mct8 dko animals, suggesting that in these organs, both transporters contribute to the TH efflux. In summary, our data indicate that Mct10 indeed participates in tissue-specific TH transport and also contributes to the generation of the unusual serum TH profile characteristic for Mct8 deficiency.

Published

2014

14. T-type amino acid transporter TAT1 (Slc16a10) is essential for extracellular aromatic amino acid homeostasis control.

Author

Mariotta L, Ramadan T, Singer D, Guetg A, Herzog B, Stoeger C, Palacín M, Lahoutte T, Camargo SM, and Verrey F

Subjects

Amino Acid Transport System y+ metabolism, Amino Acid Transport Systems, Neutral deficiency, Amino Acid Transport Systems, Neutral genetics, Amino Acids, Aromatic blood, Animals, Dietary Proteins blood, Epithelial Cells metabolism, Fusion Regulatory Protein 1, Heavy Chain metabolism, Fusion Regulatory Protein 1, Light Chains metabolism, Genotype, Homeostasis, Intestine, Small metabolism, Kidney metabolism, Liver metabolism, Mice, Mice, Inbred C3H, Mice, Inbred C57BL, Mice, Knockout, Muscle, Skeletal metabolism, Phenotype, RNA, Messenger metabolism, Amino Acid Transport Systems, Neutral metabolism, Amino Acids, Aromatic metabolism, Dietary Proteins metabolism

Abstract

The uniporter TAT1 (Slc16a10) mediates the facilitated diffusion of aromatic amino acids (AAAs) across basolateral membranes of kidney, small intestine and liver epithelial cells, and across the plasma membrane of non-epithelial cells like skeletal myocytes. Its role for body AA homeostasis has now been investigated using newly generated TAT1 (Slc16a10) defective mice (tat1(-/-)). These mice grow and reproduce normally, show no gross phenotype and no obvious neurological defect. Histological analysis did not reveal abnormalities and there is no compensatory change in any tested AA transporter mRNA. TAT1 null mice, however, display increased plasma, muscle and kidney AAA concentration under both normal and high protein diet, although this concentration remains normal in the liver. A major aromatic aminoaciduria and a smaller urinary loss of all substrates additionally transported by l-type AA antiporter Lat2-4F2hc (Slc7a8) were revealed under a high protein diet. This suggests an epithelial transport defect as also shown by the accumulation of intravenously injected (123)I-2-I-l-Phe in kidney and l-[(3)H]Phe in ex vivo everted gut sac enterocytes. Taken together, these data indicate that the uniporter TAT1 is required to equilibrate the concentration of AAAs across specific membranes. For instance, it enables hepatocytes to function as a sink that controls the extracellular AAAs concentration. Additionally, it facilitates the release of AAAs across the basolateral membrane of small intestine and proximal kidney tubule epithelial cells, thereby allowing the efflux of other neutral AAs presumably via Lat2-4F2hc.

Published

2012

15. Defective intestinal amino acid absorption in Ace2 null mice.

Author

Singer D, Camargo SM, Ramadan T, Schäfer M, Mariotta L, Herzog B, Huggel K, Wolfer D, Werner S, Penninger JM, and Verrey F

Subjects

Absorption physiology, Amino Acid Transport Systems, Neutral genetics, Amino Acid Transport Systems, Neutral metabolism, Angiotensin-Converting Enzyme 2, Animal Nutritional Physiological Phenomena, Animals, Diet, Dietary Proteins administration & dosage, Genotype, Homeostasis, Male, Mice, Mice, Knockout, Niacin metabolism, Peptidyl-Dipeptidase A genetics, Time Factors, Amino Acids metabolism, Gene Expression Regulation physiology, Intestinal Mucosa metabolism, Peptidyl-Dipeptidase A metabolism

Abstract

Mutations in the main intestinal and kidney luminal neutral amino acid transporter B(0)AT1 (Slc6a19) lead to Hartnup disorder, a condition that is characterized by neutral aminoaciduria and in some cases pellagra-like symptoms. These latter symptoms caused by low-niacin are thought to result from defective intestinal absorption of its precursor L-tryptophan. Since Ace2 is necessary for intestinal B(0)AT1 expression, we tested the impact of intestinal B(0)AT1 absence in ace2 null mice. Their weight gain following weaning was decreased, and Na(+)-dependent uptake of B(0)AT1 substrates measured in everted intestinal rings was defective. Additionally, high-affinity Na(+)-dependent transport of L-proline, presumably via SIT1 (Slc6a20), was absent, whereas glucose uptake via SGLT1 (Slc5a1) was not affected. Measurements of small intestine luminal amino acid content following gavage showed that more L-tryptophan than other B(0)AT1 substrates reach the ileum in wild-type mice, which is in line with its known lower apparent affinity. In ace2 null mice, the absorption defect was confirmed by a severalfold increase of L-tryptophan and of other neutral amino acids reaching the ileum lumen. Furthermore, plasma and muscle levels of glycine and L-tryptophan were significantly decreased in ace2 null mice, with other neutral amino acids displaying a similar trend. A low-protein/low-niacin diet challenge led to differential changes in plasma amino acid levels in both wild-type and ace2 null mice, but only in ace2 null mice to a stop in weight gain. Despite the combination of low-niacin with a low-protein diet, plasma niacin concentrations remained normal in ace2 null mice and no pellagra symptoms, such as photosensitive skin rash or ataxia, were observed. In summary, mice lacking Ace2-dependent intestinal amino acid transport display no total niacin deficiency nor clear pellagra symptoms, even under a low-protein and low-niacin diet, despite gross amino acid homeostasis alterations.

Published

2012

16. Kidney amino acid transport.

Author

Verrey F, Singer D, Ramadan T, Vuille-dit-Bille RN, Mariotta L, and Camargo SM

Subjects

Amino Acid Transport Systems, Neutral metabolism, Amino Acid Transport Systems, Neutral physiology, Animals, Anion Transport Proteins physiology, Antiporters physiology, Biological Transport, Humans, Kidney Tubules, Proximal physiology, Sulfate Transporters, Amino Acid Transport Systems metabolism, Amino Acids metabolism, Kidney metabolism

Abstract

Near complete reabsorption of filtered amino acids is a main specialized transport function of the kidney proximal tubule. This evolutionary conserved task is carried out by a subset of luminal and basolateral transporters that together form the transcellular amino acid transport machinery similar to that of small intestine. A number of other amino acid transporters expressed in the basolateral membrane of proximal kidney tubule cells subserve either specialized metabolic functions, such as the production of ammonium, or are part of the cellular housekeeping equipment. A new finding is that the luminal Na(+)-dependent neutral amino acid transporters of the SLC6 family require an associated protein for their surface expression as shown for the Hartnup transporter B(0)AT1 (SLC6A19) and suggested for the L: -proline transporter SIT1 (IMINO(B), SLC6A20) and for B(0)AT3 (XT2, SLC6A18). This accessory subunit called collectrin (TMEM27) is homologous to the transmembrane anchor region of the renin-angiotensin system enzyme ACE2 that we have shown to function in small intestine as associated subunit of the luminal SLC6 transporters B(0)AT1 and SIT1. Some mutations of B(0)AT1 differentially interact with these accessory subunits, providing an explanation for differential intestinal phenotypes among Hartnup patients. The basolateral efflux of numerous amino acids from kidney tubular cells is mediated by heteromeric amino acid transporters that function as obligatory exchangers. Thus, other transporters within the same membrane need to mediate the net efflux of exchange substrates, controlling thereby the net basolateral amino transport and thus the intracellular amino acid concentration.

Published

2009