Search Results (5)

Protein-losing enteropathy (PLE) is a spectrum of gastrointestinal disorders in which protein loss occurs through the gastrointestinal tract. One of the underlying causes is chronic inflammatory enteropathy (CIE). Conventional therapies for CIE often include diet, immunosuppressives, anti-microbials, probiotics, and, recently, fecal microbial transplantation (FMT). This case report highlights the use of lyophilized material-based FMT through oral capsules and enema in a dog with PLE and concurrent protein-losing nephropathy (PLN). The patient initially had a significantly increased dysbiosis index (DI) and required repeated FMT treatments, resulting in a positive clinical response through improvement in body weight, serum albumin concentrations, fecal scores, and normalization of the DI over time. To maintain clinical responses, FMT had to be performed monthly. Approximately 1 year after starting FMT therapy, the patient then developed an episode of acute hemorrhagic diarrhea syndrome (AHDS) associated with netF-gene-encoding Clostridium perfringens strains, after which the DI became abnormal again. The patient responded clinically well to monthly FMT treatments again, but it took several months for normalization of the DI after the AHDS episode. In summary, this case report highlights the continued use of adjunct lyophilized FMT in a dog with PLE resulting in improved clinical control over time. Full article

Protein-losing nephropathy (PLN) involves a heterogeneous group of pathologies leading to selective glomerular damage and development of renal disease. ICGN, the main cause of PLN, requires immunosuppressive treatment. However, the scientific evidence in veterinary medicine on immunosuppressive therapeutic schemes in this condition is limited. The aim of this study is to describe the clinical and paraclinical evolution of five dogs with PLN, presumably associated with ICGN, treated with chlorambucil as immunosuppressive monotherapy. Suspected IGCN was established by the presence of a urine protein–creatinine ratio (UPC) ≥ 3 without response to standard therapy, hypoalbuminemia < 2, or progressive azotemia. Patients were treated with a dosage range of chlorambucil from 0.16 to 0.4 mg/kg (mean 0.25 mg/kg) every 24 h as the sole immunosuppressant. In the end, 4/5 patients showed significant clinical improvement, 3/3 had resolution of the nephrotic syndrome, 5/5 had a sustained decrease in UPC values during follow-up and no relevant adverse effects were observed. In this report, chlorambucil proved to be a well-tolerated and potentially effective monotherapy for immune-mediated PLN in dogs. Full article

HELIX syndrome (Hypohidrosis–Electrolyte disturbances–hypoLacrimia–Ichthyosis–Xerostomia) (MIM#617671) (ORPHA:528105), described in 2017, is due to an abnormal claudin 10 b protein, secondary to pathogenic CLDN10 variants. So far, only ten families have been described. We aim to describe the phenotype in the first Spanish family identified, highlight the skin anomalies as an important clue, and expand the genotypic spectrum. Two adult brothers from consanguineous parents with suspected ectodermal dysplasia (ED) since early childhood were re-evaluated. A comprehensive phenotypic exam and an aCGH + SNP4 × 180 K microarray followed by Sanger sequencing of the CLDN10 gene were performed. They presented hypohidrosis, xerosis, mild ichthyosis, plantar keratosis, palm hyperlinearity, alacrima, and xerostomia. In adulthood, they also developed a salt-losing nephropathy with hypokalemia and hypermagnesemia. The molecular study in both patients revealed a novel pathogenic homozygous deletion of 8 nucleotides in exon 2 of the CLDN10 gene [CLDN10 (NM_0006984.4): c.322_329delGGCTCCGA, p.Gly108fs*] leading to a premature truncation of the protein. Both parents were heterozygous carriers. Hypohidrosis, ichthyosis, and plantar keratosis associated with alacrima and xerostomia should raise suspicion for HELIX syndrome, which also includes nephropathy and electrolyte disturbances in adults. Given the potential for ED misdiagnosis in infancy, it is important to include the CLDN10 gene in a specific genodermatosis next-generation sequencing (NGS) panel to provide early diagnosis, accurate management, and genetic counseling. Full article

Mutations in NKCC2 generate antenatal Bartter syndrome type 1 (type 1 BS), a life-threatening salt-losing nephropathy characterized by arterial hypotension, as well as electrolyte abnormalities. In contrast to the genetic inactivation of NKCC2, inappropriate increased NKCC2 activity has been associated with salt-sensitive hypertension. Given the importance of NKCC2 in salt-sensitive hypertension and the pathophysiology of prenatal BS, studying the molecular regulation of this Na-K-2Cl cotransporter has attracted great interest. Therefore, several studies have addressed various aspects of NKCC2 regulation, such as phosphorylation and post-Golgi trafficking. However, the regulation of this cotransporter at the pre-Golgi level remained unknown for years. Similar to several transmembrane proteins, export from the ER appears to be the rate-limiting step in the cotransporter’s maturation and trafficking to the plasma membrane. The most compelling evidence comes from patients with type 5 BS, the most severe form of prenatal BS, in whom NKCC2 is not detectable in the apical membrane of thick ascending limb (TAL) cells due to ER retention and ER-associated degradation (ERAD) mechanisms. In addition, type 1 BS is one of the diseases linked to ERAD pathways. In recent years, several molecular determinants of NKCC2 export from the ER and protein quality control have been identified. The aim of this review is therefore to summarize recent data regarding the protein quality control of NKCC2 and to discuss their potential implications in BS and blood pressure regulation. Full article

Decoy cells that can be detected in the urine sediment of immunosuppressed patients are often caused by the uncontrolled replication of polyomaviruses, such as BK-Virus (BKV) and John Cunningham (JC)-Virus (JCV), within the upper urinary tract. Due to the wide availability of highly sensitive BKV and JCV PCR, the diagnostic utility of screening for decoy cells in urine as an indicator of polyomavirus-associated nephropathy (PyVAN) has been questioned by some institutions. We hypothesize that specific staining of different infection time-dependent BKV-specific antigens in urine sediment could allow cell-specific mapping of antigen expression during decoy cell development. Urine sediment cells from six kidney transplant recipients (five males, one female) were stained for the presence of the early BKV gene transcript lTag and the major viral capsid protein VP1 using monospecific antibodies, monoclonal antibodies and confocal microscopy. For this purpose, cyto-preparations were prepared and the BK polyoma genotype was determined by sequencing the PCR-amplified coding region of the VP1 protein. lTag staining began at specific sites in the nucleus and spread across the nucleus in a cobweb-like pattern as the size of the nucleus increased. It spread into the cytosol as soon as the nuclear membrane was fragmented or dissolved, as in apoptosis or in the metaphase of the cell cycle. In comparison, we observed that VP1 staining started in the nuclear region and accumulated at the nuclear edge in 6–32% of VP1⁺ cells. The staining traveled through the cytosol of the proximal tubule cell and reached high intensities at the cytosol before spreading to the surrounding area in the form of exosome-like particles. The spreading virus-containing particles adhered to surrounding cells, including erythrocytes. VP1-positive proximal tubule cells contain apoptotic bodies, with 68–94% of them losing parts of their DNA and exhibiting membrane damage, appearing as “ghost cells” but still VP1⁺. Specific polyoma staining of urine sediment cells can help determine and enumerate exfoliation of BKV-positive cells based on VP1 staining, which exceeds single-face decoy staining in terms of accuracy. Furthermore, our staining approaches might serve as an early readout in primary diagnostics and for the evaluation of treatment responses in the setting of reduced immunosuppression. Full article