Autosomal dominant polycystic kidney disease (ADPKD) is a common genetic disease of the kidney, characterized by cystic enlargement of renal tubules, aberrant epithelial proliferation, and ion and fluid secretion into the lumen. Previous studies have shown abnormalities in polarization of membrane proteins, including mislocalization of the NaK-ATPase to the apical plasma membranes of cystic epithelia. Apically located NaK-ATPase has previously been shown to be fully functional in vivo and in membrane-grown ADPKD epithelial cells in vitro, where basal-to-apical (22)Na transport was inhibited by application of ouabain to the apical membrane compartment. Studies were conducted with polymerase chain reaction-generated specific riboprobes and polyclonal peptide antibodies against human sequences of alpha1, alpha3, beta1, and beta2 subunits of NaK-ATPase. High levels of expression of alpha1 and beta1 messenger RNA were detected in ADPKD and age-matched normal adult kidneys in vivo, whereas beta2 messenger RNA was detected only in ADPKD kidneys. Western blot analysis and immunocytochemical studies showed that, in normal adult kidneys, peptide subunit-specific antibodies against alpha1 and beta1 localized to the basolateral membranes of normal renal tubules, predominantly thick ascending limbs of Henle's loop. In ADPKD kidneys, alpha1 and beta2 subunits were localized to the apical epithelial cell membranes, whereas beta1 was distributed throughout the cytoplasm and predominantly in the endoplasmic reticulum, but was not seen associated with cystic epithelial cell membranes or in cell membrane fractions. Polarizing, renal-derived epithelial Madin Darby canine kidney cells, stably expressing normal or N-terminally truncated chicken beta1 subunits, showed selective accumulation in the basolateral Madin Darby canine kidney cell surface, whereas c-myc epitope-tagged chicken beta2 or human beta2 subunits accumulated selectively in the apical cell surface. Similarly, human ADPKD epithelial cell lines, which endogenously expressed alpha1 and beta2 NaK-ATPase subunits, showed colocalization at the apical cell surface and coassociation by immunoprecipitation analysis. These results are consistent with a model in which the additional transcription and translation of the beta2 subunit of NaK-ATPase may result in the apical mislocalization of NaK-ATPase in ADPKD cystic epithelia.
Human leukocyte antigen haploidentical hematopoietic stem-cell transplantation (haplo-HSCT) is associated with an increased risk of graft failure and severe graft-versus-host disease (GVHD). Mesenchymal stromal cells (MSCs) have been shown to support in vivo normal hematopoiesis and to display potent immunesuppressive effects. We cotransplanted the culture-expanded third-party donor-derived umbilical cord MSCs (UC-MSCs) in 50 people with refractory/relapsed hematologic malignancy undergoing haplo-HSCT with myeloablative conditioning. We observed that all patients given MSCs showed sustained hematopoietic engraftment without any adverse UC-MSC infusion-related reaction. The median times to neutrophil >0.50 × 10(9)/L and platelet >20 × 10(9)/L engraftment were 12.0 and 15.0 days, respectively. We did not observe an increase in severe acute GVHD (aGVHD) and extensive chronic GVHD (cGVHD), too. Grade II-IV aGVHD was observed in 12 of 50 (24.0 %) patients. cGVHD was observed in 17 of 45 (37.7 %) patients and was extensive in 3 patients. Additionally, only five patients (10.0 %) experienced relapse at a median time to progression of 192 days. The probability that patients would attain progression-free survival at 2 years was 66.0 %. The results indicate that this new strategy is effective in improving donor engraftment and reducing severe GVHD, which will provide a feasible option for the therapy of high-risk hematologic malignancy.
Neuromyelitis optica (NMO) is an inflammatory demyelinating disease with generally poor prognosis that selectively targets optic nerves and spinal cord. Although diagnostic criteria for NMO are available, there is still a need for biomarkers, predicting disease development and progression to improve individually tailored treatment. CSF proteins were separated by two-dimensional electrophoresis and identified by matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF MS). The interaction between these proteins was further analyzed by Pathway Studio software. Seven protein spots in CSF were significantly altered in NMO patients compared with controls. Identification made by mass spectrometry revealed that the most significant protein was haptoglobin, which was increased in the NMO gels. The subsequent ELISA test were performed to validate it, which confirmed the results of proteomic analysis. Protein network was built, which showed some biological interactions among the seven proteins. These results support a correlation between the level of haptoglobin and NMO. Haptoglobin may be a potential useful biomarker for diagnosis or a medicine target for treatment of NMO.
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