scholarly journals The novel zebrafish model pretzel demonstrates a central role for SH3PXD2B in defective collagen remodelling and fibrosis in Frank-Ter Haar syndrome

Biology Open ◽  
2020 ◽  
Vol 9 (12) ◽  
pp. bio054270
Author(s):  
Ivo J. H. M. de Vos ◽  
Arnette Shi Wei Wong ◽  
Jason Taslim ◽  
Sheena Li Ming Ong ◽  
Nicole C. Syder ◽  
...  
Keyword(s):  
Soft Tissues ◽  
Adaptor Protein ◽  
Subsequent Development ◽  
Underlying Mechanism ◽  
Compound Heterozygous ◽  
Loss Of Function ◽  
Membrane Structures ◽  
Zebrafish Model ◽  
Dermal Fibrosis ◽  
Collagen Remodelling

ABSTRACTFrank-Ter Haar syndrome (FTHS, MIM #249420) is a rare skeletal dysplasia within the defective collagen remodelling spectrum (DECORS), which is characterised by craniofacial abnormalities, skeletal malformations and fibrotic soft tissues changes including dermal fibrosis and joint contractures. FTHS is caused by homozygous or compound heterozygous loss-of-function mutation or deletion of SH3PXD2B (Src homology 3 and Phox homology domain-containing protein 2B; MIM #613293). SH3PXD2B encodes an adaptor protein with the same name, which is required for full functionality of podosomes, specialised membrane structures involved in extracellular matrix (ECM) remodelling. The pathogenesis of DECORS is still incompletely understood and, as a result, therapeutic options are limited. We previously generated an mmp14a/b knockout zebrafish and demonstrated that it primarily mimics the DECORS-related bone abnormalities. Here, we present a novel sh3pxd2b mutant zebrafish, pretzel, which primarily reflects the DECORS-related dermal fibrosis and contractures. In addition to relatively mild skeletal abnormalities, pretzel mutants develop dermal and musculoskeletal fibrosis, contraction of which seems to underlie grotesque deformations that include kyphoscoliosis, abdominal constriction and lateral folding. The discrepancy in phenotypes between mmp14a/b and sh3pxd2b mutants suggests that in fish, as opposed to humans, there are differences in spatiotemporal dependence of ECM remodelling on either sh3pxd2b or mmp14a/b. The pretzel model presented here can be used to further delineate the underlying mechanism of the fibrosis observed in DECORS, as well as screening and subsequent development of novel drugs targeting DECORS-related fibrosis.This paper has an associated First Person interview with the first author of the article.

scholarly journals Inner Ear and Muscle Developmental Defects in Smpx-Deficient Zebrafish Embryos

2021 ◽  
Vol 22 (12) ◽  
pp. 6497
Author(s):  
Anna Ghilardi ◽  
Alberto Diana ◽  
Renato Bacchetta ◽  
Nadia Santo ◽  
Miriam Ascagni ◽  
...  
Keyword(s):  
Hearing Loss ◽  
Inner Ear ◽  
Hair Cells ◽  
Muscle Fibers ◽  
Underlying Mechanism ◽  
Loss Of Function ◽  
Zebrafish Model ◽  
Developmental Defects ◽  
Inner Ear Development ◽  
Syndromic Hearing Loss

The last decade has witnessed the identification of several families affected by hereditary non-syndromic hearing loss (NSHL) caused by mutations in the SMPX gene and the loss of function has been suggested as the underlying mechanism. In the attempt to confirm this hypothesis we generated an Smpx-deficient zebrafish model, pointing out its crucial role in proper inner ear development. Indeed, a marked decrease in the number of kinocilia together with structural alterations of the stereocilia and the kinocilium itself in the hair cells of the inner ear were observed. We also report the impairment of the mechanotransduction by the hair cells, making SMPX a potential key player in the construction of the machinery necessary for sound detection. This wealth of evidence provides the first possible explanation for hearing loss in SMPX-mutated patients. Additionally, we observed a clear muscular phenotype consisting of the defective organization and functioning of muscle fibers, strongly suggesting a potential role for the protein in the development of muscle fibers. This piece of evidence highlights the need for more in-depth analyses in search for possible correlations between SMPX mutations and muscular disorders in humans, thus potentially turning this non-syndromic hearing loss-associated gene into the genetic cause of dysfunctions characterized by more than one symptom, making SMPX a novel syndromic gene.

scholarly journals Loss-of-Function Variants in TBC1D32 Underlie Syndromic Hypopituitarism

2020 ◽  
Vol 105 (6) ◽  
pp. 1748-1758 ◽  
Author(s):  
Johanna Hietamäki ◽  
Louise C Gregory ◽  
Sandy Ayoub ◽  
Anna-Pauliina Iivonen ◽  
Kirsi Vaaralahti ◽  
...  
Keyword(s):  
Anterior Pituitary ◽  
Cleft Lip ◽  
Fetal Brain ◽  
Underlying Mechanism ◽  
Hormone Deficiency ◽  
Compound Heterozygous ◽  
Pituitary Hormone ◽  
Loss Of Function ◽  
Shh Signaling ◽  
Craniofacial Dysmorphism

Abstract Context Congenital pituitary hormone deficiencies with syndromic phenotypes and/or familial occurrence suggest genetic hypopituitarism; however, in many such patients the underlying molecular basis of the disease remains unknown. Objective To describe patients with syndromic hypopituitarism due to biallelic loss-of-function variants in TBC1D32, a gene implicated in Sonic Hedgehog (Shh) signaling. Setting Referral center. Patients A Finnish family of 2 siblings with panhypopituitarism, absent anterior pituitary, and mild craniofacial dysmorphism, and a Pakistani family with a proband with growth hormone deficiency, anterior pituitary hypoplasia, and developmental delay. Interventions The patients were investigated by whole genome sequencing. Expression profiling of TBC1D32 in human fetal brain was performed through in situ hybridization. Stable and dynamic protein-protein interaction partners of TBC1D32 were investigated in HEK cells followed by mass spectrometry analyses. Main Outcome Measures Genetic and phenotypic features of patients with biallelic loss-of-function mutations in TBC1D32. Results The Finnish patients harboured compound heterozygous loss-of-function variants (c.1165_1166dup p.(Gln390Phefs*32) and c.2151del p.(Lys717Asnfs*29)) in TBC1D32; the Pakistani proband carried a known pathogenic homozygous TBC1D32 splice-site variant c.1372 + 1G > A p.(Arg411_Gly458del), as did a fetus with a cleft lip and partial intestinal malrotation from a terminated pregnancy within the same pedigree. TBC1D32 was expressed in the developing hypothalamus, Rathke’s pouch, and areas of the hindbrain. TBC1D32 interacted with proteins implicated in cilium assembly, Shh signaling, and brain development. Conclusions Biallelic TBC1D32 variants underlie syndromic hypopituitarism, and the underlying mechanism may be via disrupted Shh signaling.

scholarly journals A Mild Phenotype Caused by Two Novel Compound Heterozygous Mutations in CEP290

Genes ◽  
2020 ◽  
Vol 11 (11) ◽  
pp. 1240
Author(s):  
Agnieszka Rafalska ◽  
Anna M. Tracewska ◽  
Anna Turno-Kręcicka ◽  
Milena J. Szafraniec ◽  
Marta Misiuk-Hojło
Keyword(s):  
Vision Loss ◽  
Compound Heterozygous ◽  
Loss Of Function ◽  
Mild Phenotype ◽  
Cone Function ◽  
Retinal Disorders ◽  
Molecular Inversion Probes ◽  
Disease Experience ◽  
The Individual ◽  
Inherited Retinal Disorders

CEP290 is a ciliary gene frequently mutated in ciliopathies, resulting in a broad range of phenotypes, ranging from isolated inherited retinal disorders (IRDs) to severe or lethal syndromes with multisystemic involvement. Patients with non-syndromic CEP290-linked disease experience profound and early vision loss due to cone-rod dystrophy, as in Leber congenital amaurosis. In this case report, we describe two novel loss-of-function heterozygous alterations in the CEP290 gene, discovered in a patient suffering from retinitis pigmentosa using massive parallel sequencing of a molecular inversion probes library constructed for 108 genes involved in IRDs. A milder phenotype than expected was found in the individual, which serves to prove that some CEP290-associated disorders may display preserved cone function.

scholarly journals EGCG modulates PKD1 and ferroptosis to promote recovery in ST rats

2020 ◽  
Vol 11 (1) ◽  
pp. 173-181 ◽  
Author(s):  
Jianjun Wang ◽  
Ying Chen ◽  
Long Chen ◽  
Yanzhi Duan ◽  
Xuejun Kuang ◽  
...  
Keyword(s):  
Spinal Cord ◽  
Functional Recovery ◽  
Antioxidant Properties ◽  
Underlying Mechanism ◽  
Maximal Effect ◽  
Loss Of Function ◽  
Protein Kinase D1 ◽  
Erk Phosphorylation ◽  
Cord Injury ◽  
Novel Strategy

AbstractBackgroundSpinal cord injury (SCI) causes devastating loss of function and neuronal death without effective treatment. (−)-Epigallocatechin-3-gallate (EGCG) has antioxidant properties and plays an essential role in the nervous system. However, the underlying mechanism by which EGCG promotes neuronal survival and functional recovery in complete spinal cord transection (ST) remains unclear.MethodsIn the present study, we established primary cerebellar granule neurons (CGNs) and a T10 ST rat model to investigate the antioxidant effects of EGCG via its modulation of protein kinase D1 (PKD1) phosphorylation and inhibition of ferroptosis.ResultsWe revealed that EGCG significantly increased the cell survival rate of CGNs and PKD1 phosphorylation levels in comparison to the vehicle control, with a maximal effect observed at 50 µM. EGCG upregulated PKD1 phosphorylation levels and inhibited ferroptosis to reduce the cell death of CGNs under oxidative stress and to promote functional recovery and ERK phosphorylation in rats following complete ST.ConclusionTogether, these results lay the foundation for EGCG as a novel strategy for the treatment of SCI related to PKD1 phosphorylation and ferroptosis.

scholarly journals Altered Expression of Peroxiredoxins in Mouse Model of Progressive Myoclonus Epilepsy upon LPS-Induced Neuroinflammation

Antioxidants ◽  
2021 ◽  
Vol 10 (3) ◽  
pp. 357
Author(s):  
Mojca Trstenjak Prebanda ◽  
Petra Matjan-Štefin ◽  
Boris Turk ◽  
Nataša Kopitar-Jerala
Keyword(s):  
Mouse Model ◽  
Redox Homeostasis ◽  
Underlying Mechanism ◽  
Loss Of Function ◽  
Altered Expression ◽  
Lps Challenge ◽  
Progressive Myoclonus Epilepsy ◽  
Myoclonus Epilepsy ◽  
The Brain ◽  
Deficient Mice

Stefin B (cystatin B) is an inhibitor of endo-lysosomal cysteine cathepsin, and the loss-of-function mutations in the stefin B gene were reported in patients with Unverricht–Lundborg disease (EPM1), a form of progressive myoclonus epilepsy. Stefin B-deficient mice, a mouse model of the disease, display key features of EPM1, including myoclonic seizures. Although the underlying mechanism is not yet completely clear, it was reported that the impaired redox homeostasis and inflammation in the brain contribute to the progression of the disease. In the present study, we investigated if lipopolysaccharide (LPS)-triggered neuroinflammation affected the protein levels of redox-sensitive proteins: thioredoxin (Trx1), thioredoxin reductase (TrxR), peroxiredoxins (Prxs) in brain and cerebella of stefin B-deficient mice. LPS challenge was found to result in a marked elevation of Trx1 and TrxR in the brain and cerebella of stefin B deficient mice, while Prx1 was upregulated only in cerebella after LPS challenge. Mitochondrial peroxiredoxin 3 (Prx3), was upregulated also in the cerebellar tissue lysates prepared from unchallenged stefin B deficient mice, while after LPS challenge Prx3 was upregulated in stefin B deficient brain and cerebella. Our results imply the role of oxidative stress in the progression of the disease.

scholarly journals A Novel Mutation of ATP7B Gene in a Case of Wilson Disease

Medicina ◽  
2021 ◽  
Vol 57 (2) ◽  
pp. 123
Author(s):  
Cigdem Yuce Kahraman ◽  
Ali Islek ◽  
Abdulgani Tatar ◽  
Özlem Özdemir ◽  
Adil Mardinglu ◽  
...  
Keyword(s):  
Wilson Disease ◽  
Novel Mutation ◽  
Molecular Genetic ◽  
Molecular Genetic Analysis ◽  
Compound Heterozygous ◽  
Atp7b Gene ◽  
Loss Of Function ◽  
Clinical Presentations ◽  
The Family ◽  
The Brain

Wilson disease (WD) (OMIM# 277900) is an autosomal recessive inherited disorder characterized by excess copper (Cu) storage in different human tissues, such as the brain, liver, and the corneas of the eyes. It is a rare disorder that occurs in approximately 1 in 30,000 individuals. The clinical presentations of WD are highly varied, primarily consisting of hepatic and neurological conditions. WD is caused by homozygous or compound heterozygous mutations in the ATP7B gene. The diagnosis of the disease is complicated because of its heterogeneous phenotypes. The molecular genetic analysis encourages early diagnosis, treatment, and the opportunity to screen individuals at risk in the family. In this paper, we reported a case with a novel, hotspot-located mutation in WD. We have suggested that this mutation in the ATP7B gene might contribute to liver findings, progressing to liver failure with a loss of function effect. Besides this, if patients have liver symptoms in childhood and/or are children of consanguineous parents, WD should be considered during the evaluation of the patients.

scholarly journals miR-16-5p Promotes Erythroid Maturation of Erythroleukemia Cells by Regulating Ribosome Biogenesis

2021 ◽  
Vol 14 (2) ◽  
pp. 137
Author(s):  
Christos I. Papagiannopoulos ◽  
Nikoleta F. Theodoroula ◽  
Ioannis S. Vizirianakis
Keyword(s):  
Ribosomal Proteins ◽  
Ribosome Biogenesis ◽  
Cultured Cells ◽  
Erythroid Differentiation ◽  
Underlying Mechanism ◽  
Loss Of Function ◽  
Functional Studies ◽  
Differentiated Cells ◽  
Erythroleukemia Cells ◽  
Murine Erythroleukemia

miRNAs constitute a class of non-coding RNA that act as powerful epigenetic regulators in animal and plant cells. In order to identify putative tumor-suppressor miRNAs we profiled the expression of various miRNAs during differentiation of erythroleukemia cells. RNA was purified before and after differentiation induction and subjected to quantitative RT-PCR. The majority of the miRNAs tested were found upregulated in differentiated cells with miR-16-5p showing the most significant increase. Functional studies using gain- and loss-of-function constructs proposed that miR-16-5p has a role in promoting the erythroid differentiation program of murine erythroleukemia (MEL) cells. In order to identify the underlying mechanism of action, we utilized bioinformatic in-silico platforms that incorporate predictions for the genes targeted by miR-16-5p. Interestingly, ribosome constituents, as well as ribosome biogenesis factors, were overrepresented among the miR-16-5p predicted gene targets. Accordingly, biochemical experiments showed that, indeed, miR-16-5p could modulate the levels of independent ribosomal proteins, and the overall ribosomal levels in cultured cells. In conclusion, miR-16-5p is identified as a differentiation-promoting agent in erythroleukemia cells, demonstrating antiproliferative activity, likely as a result of its ability to target the ribosomal machinery and restore any imbalanced activity imposed by the malignancy and the blockade of differentiation.

scholarly journals The Ubiquitously Expressed Csk Adaptor Protein Cbp Is Dispensable for Embryogenesis and T-Cell Development and Function

2005 ◽  
Vol 25 (23) ◽  
pp. 10533-10542 ◽  
Author(s):  
Marc-Werner Dobenecker ◽  
Christian Schmedt ◽  
Masato Okada ◽  
Alexander Tarakhovsky
Keyword(s):  
T Cell ◽  
Adaptor Protein ◽  
Regulatory Function ◽  
Loss Of Function ◽  
Thymic Development ◽  
Cell Functions ◽  
Carboxy Terminal ◽  
And Function

ABSTRACT Regulation of Src family kinase (SFK) activity is indispensable for a functional immune system and embryogenesis. The activity of SFKs is inhibited by the presence of the carboxy-terminal Src kinase (Csk) at the cell membrane. Thus, recruitment of cytosolic Csk to the membrane-associated SFKs is crucial for its regulatory function. Previous studies utilizing in vitro and transgenic models suggested that the Csk-binding protein (Cbp), also known as phosphoprotein associated with glycosphingolipid microdomains (PAG), is the membrane adaptor for Csk. However, loss-of-function genetic evidence to support this notion was lacking. Herein, we demonstrate that the targeted disruption of the cbp gene in mice has no effect on embryogenesis, thymic development, or T-cell functions in vivo. Moreover, recruitment of Csk to the specialized membrane compartment of “lipid rafts” is not impaired by Cbp deficiency. Our results indicate that Cbp is dispensable for the recruitment of Csk to the membrane and that another Csk adaptor, yet to be discovered, compensates for the loss of Cbp.

Silencing of hsa_circ_0000515 Inhibits Proliferation, Migration and Invasion of Gastric Cancer Cells by Sponging miR-615-5p In Vitro

2021 ◽  
Vol 11 (8) ◽  
pp. 1466-1476
Author(s):  
Xuli Wang ◽  
Aiping Wang
Keyword(s):  
Gastric Cancer ◽  
Underlying Mechanism ◽  
Luciferase Reporter ◽  
Migration And Invasion ◽  
Pcr Analysis ◽  
Circular Rnas ◽  
Loss Of Function ◽  
Gastric Cancer Cells ◽  
Novel Target

Circular RNAs (circRNAs) have been reported to participate in the molecular mechanism of human cancers. This study investigates the role of circRNA hsa_circ_0000515 in gastric cancer (GC) cells and the underlying mechanism associated with microRNA-615-5p (miR-615-5p). qRT-PCR analysis showed the upregulation of hsa_circ_0000515 and downregulation of miR-615-5p in GC cell lines. Loss-of-function experiments indicated that suppression of hsa_circ_0000515 inhibited cell proliferation, migration, and invasion. Dual-luciferase reporter assay highlighted that hsa_circ_0000515 was able to act as a ceRNA of miR-615-5p. Furthermore, hsa_circ_0000515 could interact with splicing factors and bind miR-615-5p to regulate progression of GC cells. Deficiency of miR-615-5p reverses the inhibitory roles of si-hsa_circ_0000515 on the proliferation, migration, and invasion of GC cells. The findings highlighted the promising uses of hsa_circ_0000515 as a likely novel target for gastric cancer treatment.

Functional Hyperactivity in Long QT Syndrome Type 1 Pluripotent Stem Cell-Derived Sympathetic Neurons

2021 ◽  
Author(s):  
Annika Winbo ◽  
Suganeya Ramanan ◽  
Emily Eugster ◽  
Annika Rydberg ◽  
Stefan Jovinge ◽  
...  
Keyword(s):  
Pluripotent Stem Cell ◽  
Sympathetic Neurons ◽  
Compound Heterozygous ◽  
Syndrome Type ◽  
Loss Of Function ◽  
Long Qt ◽  
Action Potential Frequency ◽  
Qt Syndrome ◽  
Potential Frequency

Sympathetic activation is an established trigger of life-threatening cardiac events in long QT syndrome type 1 (LQT1). KCNQ1 loss-of-function variants, which underlie LQT1, have been associated with both cardiac arrhythmia and neuronal hyperactivity pathologies. However, the LQT1 sympathetic neuronal phenotype is unknown. Here we aimed to study human induced pluripotent stem cell (hiPSC)-derived sympathetic neurons (SNs) to evaluate neuronal functional phenotype in LQT1. We generated hiPSC-SNs from two LQT1 patients with a history of sympathetically triggered arrhythmia and KCNQ1 loss-of-function genotypes (c.781_782delinsTC and p.S349W/p.R518X). Characterisation of hiPSC-SNs was performed using immunohistochemistry, enzyme-linked immunosorbent assay and whole-cell patch clamp electrophysiology, and functional LQT1 hiPSC-SN phenotypes compared to healthy control (WT) hiPSC-SNs. hiPSC-SNs stained positive for tyrosine hydroxylase, peripherin, KCNQ1, and secreted noradrenaline. hiPSC-SNs at 60±2.2 days in vitro had healthy resting membrane potentials (-60±1.3 mV), and fired rapid action potentials with mature kinetics in response to stimulation. Significant hyperactivity in LQT1 hiPSC-SNs was evident via increased noradrenaline release, increased spontaneous action potential frequency, increased total inward current density, and reduced afterhyperpolarisation, compared to age-matched WT hiPSC-SNs. A significantly higher action potential frequency upon current injection and larger synaptic current amplitudes in compound heterozygous p.S349W/p.R518X hiPSC-SNs compared to heterozygous c.781_782delinsTC hiPSC-SNs was also observed, suggesting a potential genotype-phenotype correlation. Together our data reveal increased neurotransmission and excitability in heterozygous and compound heterozygous patient-derived LQT1 sympathetic neurons, suggesting that the cellular arrhythmogenic potential in LQT1 is not restricted to cardiomyocytes.

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