Clinical, biochemical, and pathophysiological analysis of <i>SLC34A1</i>
 mutations

Fearn, Amy; Allison, Benjamin; Rice, S.J.; Edwards, Noel; Halbritter, Jan; Bourgeois, Soline; Pastor-Arroyo, Eva M.; Hildebrandt, Friedhelm; Tasić, Velibor; Wagner, Carsten A.; Hernando, Nati; Sayer, John A.; Werner, Andreas

doi:10.14814/phy2.13715

Cited by 34 publications

(36 citation statements)

References 16 publications

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“…Many of these mutations are located within the predicted highly conserved transmembrane domains of the transporter possibly disturbing folding and/or stability of the protein in the membrane. Consistently, the functional analysis of several of these mutants demonstrated function possibly due to trafficking defects with intracellular retention of the mutant protein [88,81,19,17,23].…”

Section: Human Disease Associated With Napi-iia (Slc34a1) Mutationsmentioning

confidence: 69%

“…An in-frame deletion of 7 amino acids at the cytoplasmic N-terminal tail 91del7is of particular interest. The mutation has been detected in several patients either in compound heterozygosity or in homozygosity [88,23,38]. The clinical symptoms of homozygous and compound heterozygous patients are similar to patients carrying other SLC34A1 mutations strongly suggesting that the 91del7 mutation is fully pathogenic.…”

Section: Human Disease Associated With Napi-iia (Slc34a1) Mutationsmentioning

confidence: 95%

“…However, functional studies provide evidence for only a very mild transport defect [88,60,23] with only little reduction in apical expression consistent with a possible trafficking defect [88]. Of interest, this mutation has a high minor allele frequency of 0.018 (ExAC http://exac.broadinstitute.org/) suggesting that nearly 2 % of the general population carries this mutation on one allele.…”

Section: Human Disease Associated With Napi-iia (Slc34a1) Mutationsmentioning

confidence: 98%

“…Patients from one large family with a 21-nucleotide insertion in the transporter also showed symptoms of a more generalized proximal tubular dysfunction with unusually high calcitriol levels atypical for Fanconi-like syndromes [67,17]. In some cases, associations were present with metabolic acidosis or epilepsy, sensorineural deafness and learning deficiencies which may not be directly linked to mutations in SLC34A1 [23]. Large deletions encompassing SLC34A1 are found in patients with Sotos syndrome with learning deficiencies, facial dysmorphia, overgrowth, hypercalcemia, and nephrocalcinosis [47].…”

Section: Human Disease Associated With Napi-iia (Slc34a1) Mutationsmentioning

confidence: 99%

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Clinical aspects of the phosphate transporters NaPi-IIa and NaPi-IIb: mutations and disease associations

Lederer

Wagner

2018

Pflugers Arch - Eur J Physiol

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The Na-dependent phosphate transporter NaPi-IIa (SLC34A1) is mostly expressed in kidney, whereas NaPi-IIb (SLC34A2) has a wider tissue distribution with prominent expression in the lung and small intestine. NaPi-IIa is involved in renal reabsorption of inorganic phosphate (Pi) from urine, and patients with biallelic inactivating mutations in SLC34A1 develop hypophosphatemia, hypercalcemia, hypercalciuria and nephrocalcinosis, and nephrolithiasis in early childhood. Monoallelic mutations are frequent in the general population and may impact on the risk to develop kidney stones in adulthood. SNPs in close vicinity to the SLC34A1 locus associate with the risk to develop CKD. NaPi-IIb mediates high-affinity transport of Pi from the diet and appears to be mostly important during low Pi availability. Biallelic inactivating SLC34A2 mutations are found in patients with pulmonary alveolar microlithiasis, a lung disease characterized by the deposition of microcrystals. In contrast, no evidence for disturbed systemic Pi homeostasis has been reported in these patients to date. Nevertheless, NaPi-IIb-mediated intestinal Pi absorption may be a target for pharmaceutical interventions in patients with chronic kidney disease and Pi overload.

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Section: Human Disease Associated With Napi-iia (Slc34a1) Mutationsmentioning

confidence: 69%

Section: Human Disease Associated With Napi-iia (Slc34a1) Mutationsmentioning

confidence: 95%

Section: Human Disease Associated With Napi-iia (Slc34a1) Mutationsmentioning

confidence: 98%

Section: Human Disease Associated With Napi-iia (Slc34a1) Mutationsmentioning

confidence: 99%

See 2 more Smart Citations

Clinical aspects of the phosphate transporters NaPi-IIa and NaPi-IIb: mutations and disease associations

Lederer

Wagner

2018

Pflugers Arch - Eur J Physiol

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“…Both homozygous and heterozygous SLC4A1 mutations and hemoglobinopathy [AMJ 2019;12(2):63-70] affects the morphology of red cells and the degree of haemolytic anaemia, which is worsen by acidosis. 14 18 Fanconi-Bickel syndrome missense mutation in SLC2A2, 19 is a rare autosomal recessive disease caused by a deficiency of glucose transporter 2 (GLUT2), a member of the facilitative glucose transporter family. 20 The most common type is cystinosis caused by CTNS mutation and is a lysosomal storage disorder.…”

Section: Introductionmentioning

confidence: 99%

Renal tubular acidosis in pediatrics: A review article

Moshref¹,

Moshref²,

Safdar³

2019

AMJ

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BackgroundRenal tubular acidosis was first defined by the incapacity to lower urinary pH below 5.5, normal GFR associated with hyperchloremia and a normal plasma anion gap, and later the definition added tubular impairment in the bicarbonate reabsorption. AimsTo provide an overview of types, diagnosis and management of renal tubular acidosis. The study focuses on syndromes found in Saudi Arabia. MethodsThis study is a review article about renal tubular acidosis. It is composed of an extensive research in PubMed, uptodate, BMJ, Cochrane. ResultsThere are different hypothesis and genetic play a role in renal tubular acidosis. Treatment varies from each type, but with proper treatment promotes normal growth development. ConclusionThis study is an overview of renal tubular acidosis. It provides a comprehensive summary to interns, residents and consultants in the medical field.

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Expression and function of Slc34 sodium–phosphate co-transporters in skeleton and teeth

Beck

2018

Pflugers Arch - Eur J Physiol

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Clinical, biochemical, and pathophysiological analysis of SLC34A1 mutations

Cited by 34 publications

References 16 publications

Clinical aspects of the phosphate transporters NaPi-IIa and NaPi-IIb: mutations and disease associations

Clinical aspects of the phosphate transporters NaPi-IIa and NaPi-IIb: mutations and disease associations

Renal tubular acidosis in pediatrics: A review article

Expression and function of Slc34 sodium–phosphate co-transporters in skeleton and teeth

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