Focal segmental glomerulosclerosis (FSGS) is a common cause of steroid-resistant nephrotic syndrome. Spontaneous remission of FSGS is rare and steroid-resistant FSGS frequently progresses to renal ...failure. Many inheritable forms of FSGS have been described, caused by mutations in proteins that are important for podocyte function. Here, we show that a basic leucine zipper transcription factor, MafB, protects against FSGS. MAFB expression was found to be decreased in the podocytes of patients with FSGS. Moreover, conditional podocyte-specific MafB-knockout mice developed FSGS with massive proteinuria accompanied by depletion of the slit diaphragm-related proteins (Nphs1 and Magi2), and the podocyte-specific transcription factor Tcf21. These findings indicate that MafB plays a crucial role in the pathogenesis of FSGS. Consistent with this, adriamycin-induced FSGS and attendant proteinuria were ameliorated by MafB overexpression in the podocytes of MafB podocyte-specific transgenic mice. Thus, MafB could be a new therapeutic target for FSGS.
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The inner cell mass of the mouse blastocyst gives rise to the pluripotent epiblast (EPI), which forms the embryo proper, and the primitive endoderm (PrE), which forms extra-embryonic yolk sac ...tissues. All inner cells coexpress lineage markers such as
and
at embryonic day (E) 3.25, and the EPI and PrE precursor cells eventually segregate to exclusively express
and
, respectively. Fibroblast growth factor (FGF)-extracellular signal-regulated kinase (ERK) signalling is involved in segregation of the EPI and PrE lineages; however, the mechanism involved in
regulation is poorly understood. Here, we identified
as an upstream repressor of
was markedly upregulated in
knockout (KO) embryos at E3.0, and was downregulated in embryos overexpressing
Furthermore,
KO and overexpressing blastocysts showed skewed lineage specification phenotypes, similar to FGF4-treated preimplantation embryos and
KO embryos, respectively. Inhibitors of the FGF receptor (Fgfr) and ERK pathways reversed the skewed lineage specification of
KO blastocysts. These data demonstrate that
suppresses Fgf4-Fgfr-ERK signalling, thus preventing precocious activation of the PrE specification programme.
The transcription factor, MafB, plays important role in the differentiation and functional maintenance of various cells and tissues, such as the inner ear, kidney podocyte, parathyroid gland, ...pancreatic islet, and macrophages. The rare heterozygous substitution (p.Leu239Pro) of the DNA binding domain in MAFB is the cause of Focal Segmental Glomerulosclerosis associated with Duane Retraction Syndrome, which is characterized by impaired horizontal eye movement due to cranial nerve maldevelopment in humans. In this research, we generated mice carrying MafB p.Leu239Pro (Mafbmt/mt) and retrieved their tissues for analysis. As a result, we found that the phenotype of Mafbmt/mt mouse was similar to that of the conventional Mafb deficient mouse. This finding suggests that the Leucine residue at 239 in the DNA binding domain plays a key role in MafB function and could contribute to the diagnosis or development of treatment for patients carrying the MafB p.Leu239Pro missense variant.
•Mafbmt/mt mice displayed abnormal development of the inner ear and kidney podocyte, similar to the MAFB mutant patients.•Mafbmt/mt mice had decreased serum PTH level, abnormal number of α- and β-cell in the pancreas, and abnormal F4/80+ macrophages.•The phenotype of Mafbmt/mt and Mafb deficient mice was similar, indicating MafB DNA binding domain critical for its function.
Adeno-associated virus serotype 9 (AAV9) has become a popular tool for gene transfer because of its ability to cross the blood-brain barrier and efficiently transduce genetic material into a variety ...of cell types. The study utilized GRR (Green-to-Red Reporter) mouse embryos, in which the expression of iCre results in the disappearance of Green Fluorescent Protein (GFP) expression and the detection of Discosoma sp. Red Fluorescent Protein (DsRed) expression by intraplacental injection. Our results demonstrate that AAV9-CMV-iCre can transduce multiple organs in embryos at developmental stages E9.5–E11.5, including the liver, heart, brain, thymus, and intestine. These findings suggest that intraplacental injection of AAV9-CMV-iCre is a viable method for the widespread transduction of GRR mouse embryos.
Multicentric carpotarsal osteolysis (MCTO) is a condition involving progressive osteolysis of the carpal and tarsal bones that is associated with glomerular sclerosis and renal failure (MCTO ...nephropathy). Previous work identified an autosomal dominant missense mutation in the transactivation domain of the transcription factor MAFB as the cause of MCTO. Several methods are currently used for MCTO nephropathy treatment, but these methods are invasive and lead to severe side effects, limiting their use. Therefore, the development of alternative treatments for MCTO nephropathy is required; however, the pathogenesis of MCTO in vivo is unclear without access to a mouse model. Here, we report the generation of an MCTO mouse model using the CRISPR/Cas9 system. These mice exhibit nephropathy symptoms that are similar to those observed in MCTO patients. MafbMCTO/MCTO mice show developmental defects in body weight from postnatal day 0, which persist as they age. They also exhibit high urine albumin creatinine levels from a young age, mimicking the nephropathic symptoms of MCTO patients. Characteristics of glomerular sclerosis reported in human patients are also observed, such as histological evidence of focal segmental glomerulosclerosis (FSGS), podocyte foot process microvillus transformation and podocyte foot process effacement. Therefore, this study contributes to the development of an alternative treatment for MCTO nephropathy by providing a viable mouse model.
The Japan Aerospace Exploration Agency developed the mouse Habitat Cage Unit (HCU) for installation in the Cell Biology Experiment Facility (CBEF) onboard the Japanese Experimental Module (“Kibo”) on ...the International Space Station. The CBEF provides “space-based controls” by generating artificial gravity in the HCU through a centrifuge, enabling a comparison of the biological consequences of microgravity and artificial gravity of 1 g on mice housed in space. Therefore, prior to the space experiment, a ground-based study to validate the habitability of the HCU is necessary to conduct space experiments using the HCU in the CBEF. Here, we investigated the ground-based effect of a 32-day housing period in the HCU breadboard model on male mice in comparison with the control cage mice. Morphology of skeletal muscle, the thymus, heart, and kidney, and the sperm function showed no critical abnormalities between the control mice and HCU mice. Slight but significant changes caused by the HCU itself were observed, including decreased body weight, increased weights of the thymus and gastrocnemius, reduced thickness of cortical bone of the femur, and several gene expressions from 11 tissues. Results suggest that the HCU provides acceptable conditions for mouse phenotypic analysis using CBEF in space, as long as its characteristic features are considered. Thus, the HCU is a feasible device for future space experiments.
Abstract
Background and Aims
Transcription factor MafB in podocytes is essential for podocyte differentiation and maintenance. Previous works identified a missense mutation in the transactivation ...domain of MAFB as the cause of multicentric carpotarsal osteolysis (MCTO). MCTO is a condition involving progressive osteolysis of the carpal and tarsal bones. MCTO patients also develop with focal segmental glomerulosclerosis (FSGS) and renal failure (MCTO nephropathy). However, the pathogenesis of MCTO in vivo is unclear.
Method
In order to address this question, we generated an MCTO mouse model using the CRISPR/Cas9-mediated genome editing. This mouse has a human MCTO mutation c.176C>T, (p.Pro59Leu). Mafb MCTO/ MCTO mice were obtained by crossing Mafb MCTO/WT mice. Control animals were Mafb WT/WT mice. Sequencing analysis was performed to confirm the integration of the MCTO mutation on F2 generations. We checked urine of these mice every 4 weeks, and biochemical and histological analysis were performed at 26 weeks-ages. RNA-seq analysis of the isolated glomeruli of these mice was performed at 10 weeks-ages.
Results
Interestingly, MafbMCTO/MCTO newborn mice exhibited a 10% lower body weight than control mice. The differences were still observed at 2 weeks, with Mafb MCTO/MCTO mice presenting a 23% lower body weight than control animals. The length of femoral bones in Mafb MCTO/MCTO mice was shorter than that of control. MCTO model mice exhibit growth deficiency. In addition, Mafb MCTO/ MCTO mice resulted in albuminuria at 4 weeks-ages from postnatal periods and became persistent. Renal histological analysis in adult stage revealed FSGS-like glomerular lesions in Mafb MCTO/ MCTO mice. In electron microscope analysis, microvillous transformation of the foot processes of podocytes in Bowman’s space and foot processes effacements were seen in Mafb MCTO/ MCTO mice. These phenotypes are similar to that seen in MCTO nephropathy patients. Subsequently, we performed RNA-seq analysis of isolated glomeruli to gain insight into the molecular mechanism of the MCTO mutation. We found Cldn1, gene expression in mature podocytes caused profound proteinuria, was significantly increased in Mafb MCTO/ MCTO glomeruli.
Conclusion
This study is significant for revealing the mechanism of MCTO and contributes to the development of an alternative treatment against MCTO nephropathy by providing model mice for use.
Adeno-associated virus serotype 9 (AAV9) has become a popular tool for gene transfer because of its ability to cross the blood-brain barrier and efficiently transduce genetic material into a variety ...of cell types. The study utilized GRR (Green-to-Red Reporter) mouse embryos, in which the expression of iCre results in the disappearance of Green Fluorescent Protein (GFP) expression and the detection of Discosoma sp. Red Fluorescent Protein (DsRed) expression by intraplacental injection. Our results demonstrate that AAV9-CMV-iCre can transduce multiple organs in embryos at developmental stages E9.5–E11.5, including the liver, heart, brain, thymus, and intestine. These findings suggest that intraplacental injection of AAV9-CMV-iCre is a viable method for the widespread transduction of GRR mouse embryos.
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