The cytoskeletal linker protein moesin: decreased levels in Wiskott-Aldrich syndrome platelets and identification of a cleavage pathway in normal platelets

Two cases of pediatric primary immunodeficiency caused by a familial moesin(MSN)gene mutation

BACKGROUND

We investigated two brothers who presented with repeated lung infections after 6 months of age. Lymphocytes and neutrophils were significantly decreased, and both had bronchiectasis and emphysema.

OBJECTIVE

We sought to characterize the complete picture of lung injury in some types of primary immunodeficiency disease, followed by verification and analysis.

METHODS

We performed immune function determination, a complete examination of the respiratory system, genetic analysis, and literature research.

RESULTS

The levels of lymphocytes, neutrophils, monocytes, and natural killer cells in the brothers were significantly decreased. The IgM and IgG levels of the older brother were decreased, while the IgM and IgA levels of the younger brother were decreased. Both brothers had bronchial wall erosion with a worm-eaten appearance and decreased lung function. Genetic testing revealed a hemizygous missense mutation (c.511C > T:p.R171W) in exon 5 of the MSN gene, which was inherited from the mother. A literature review showed that the primary immunodeficiency caused by MSN gene mutations is an X-linked recessive genetic disease with four known gene mutation sites, including nonsense and missense mutations. Nonsense mutations result in a higher incidence of autoimmune diseases and a lower degree of immune function impairment. Nonsense mutations closer to the front of the MSN gene may cause more severe disease. Neonatal disease screening can improve the early diagnosis rate, but hematopoietic stem cell transplantation (HSCT) treatment is controversial.

CONCLUSION

The primary immunodeficiency disease caused by MSN gene mutation is an X-linked recessive genetic disease that involves structural and functional damage to the respiratory system, and the worm-eaten appearance of the bronchial wall under endoscopy may be a relatively specific sign. The general manifestations of this disease are recurrent infections from 1 month to 6 months after birth, significantly reduced counts of lymphocytes and neutrophils, and decreased cellular and humoral immune function. Different types of MSN gene mutations and nonsense mutations at different sites have different clinical phenotypes. This study enriches the known spectrum of this disease.

Wiskott-Aldrich Syndrome in four male siblings from a consanguineous family from Lebanon

BACKGROUND

Wiskott-Aldrich syndrome (WAS) is a rare X-linked primary immunodeficiency disorder (PID) characterized by microthrombocytopenia, bloody diarrhea, eczema, recurrent infections, and a high incidence of autoimmunity and malignancy.

OBJECTIVE

To investigate the mechanism of thrombocytopenia and infections in four boys of consanguineous parents from Lebanon.

METHODS

Patient gDNA was studied using Next Generation Sequencing and Sanger Sequencing. Protein expression was determined by immunoblotting, and mRNA expression by semi-quantitative RT-PCR. F-actin polymerization and cellular proliferation were assayed by flow cytometry.

RESULTS

We identified a threonine to a methionine change at position 45 (T45M) of the WAS protein (WASp) that abolished protein expression and disturbed F-actin polymerization and T cell proliferation, but not B cell proliferation. In addition, the levels of the WAS-interacting protein (WIP) were significantly decreased in the patients.

CONCLUSION

The mutation identified severely destabilizes WASp and affects the downstream signaling events important for T cell function, but not B cell function. It was previously known that the stability of WASp depends on WIP. In this manuscript, we report that the stability of WIP also depends on WASp. Finally, it is important to suspect X-linked PIDs even in consanguineous families.

CLINICAL IMPLICATIONS

The patients are above the optimal age for transplant in WAS, and it is difficult to identify one or more donors for four patients, therefore, they represent ideal candidates for gene therapy or interleukin-2 therapy.

Absence of WASp Enhances Hematopoietic and Megakaryocytic Differentiation in a Human Embryonic Stem Cell Model

The Wiskott-Aldrich syndrome (WAS) is an X-linked primary immunodeficiency caused by mutations in the WAS gene and characterized by severe thrombocytopenia. Although the role of WASp in terminally differentiated lymphocytes and myeloid cells is well characterized, its role in early hematopoietic differentiation and in platelets (Plts) biology is poorly understood. In the present manuscript, we have used zinc finger nucleases targeted to the WAS locus for the development of two isogenic WAS knockout (WASKO) human embryonic stem cell lines (hESCs). Upon hematopoietic differentiation, hESCs-WASKO generated increased ratios of CD34⁺CD45⁺ progenitors with altered responses to stem cell factor compared to hESCs-WT. When differentiated toward the megakaryocytic linage, hESCs-WASKO produced increased numbers of CD34⁺CD41⁺ progenitors, megakaryocytes (MKs), and Plts. hESCs-WASKO-derived MKs and Plts showed altered phenotype as well as defective responses to agonist, mimicking WAS patients MKs and Plts defects. Interestingly, the defects were more evident in WASp-deficient MKs than in WASp-deficient Plts. Importantly, ectopic WAS expression using lentiviral vectors restored normal Plts development and MKs responses. These data validate the AND-1_WASKO cell lines as a human cellular model for basic research and for preclinical studies for WAS.

Beta adrenergic overstimulation impaired vascular contractility via actin-cytoskeleton disorganization in rabbit cerebral artery

Background and Purpose

Beta adrenergic overstimulation may increase the vascular damage and stroke. However, the underlying mechanisms of beta adrenergic overstimulation in cerebrovascular dysfunctions are not well known. We investigated the possible cerebrovascular dysfunction response to isoproterenol induced beta-adrenergic overstimulation (ISO) in rabbit cerebral arteries (CAs).

Methods

ISO was induced in six weeks aged male New Zealand white rabbit (0.8–1.0 kg) by 7-days isoproterenol injection (300 μg/kg/day). We investigated the alteration of protein expression in ISO treated CAs using 2DE proteomics and western blot analysis. Systemic properties of 2DE proteomics result were analyzed using bioinformatics software. ROS generation and following DNA damage were assessed to evaluate deteriorative effect of ISO on CAs. Intracellular Ca²⁺ level change and vascular contractile response to vasoactive drug, angiotensin II (Ang II), were assessed to evaluate functional alteration of ISO treated CAs. Ang II-induced ROS generation was assessed to evaluated involvement of ROS generation in CA contractility.

Results

Proteomic analysis revealed remarkably decreased expression of cytoskeleton organizing proteins (e.g. actin related protein 1A and 2, α-actin, capping protein Z beta, and vimentin) and anti-oxidative stress proteins (e.g. heat shock protein 9A and stress-induced-phosphoprotein 1) in ISO-CAs. As a cause of dysregulation of actin-cytoskeleton organization, we found decreased level of RhoA and ROCK1, which are major regulators of actin-cytoskeleton organization. As functional consequences of proteomic alteration, we found the decreased transient Ca²⁺ efflux and constriction response to angiotensin II and high K⁺ in ISO-CAs. ISO also increased basal ROS generation and induced oxidative damage in CA; however, it decreased the Ang II-induced ROS generation rate. These results indicate that ISO disrupted actin cytoskeleton proteome network through down-regulation of RhoA/ROCK1 proteins and increased oxidative damage, which consequently led to contractile dysfunction in CA.

ADAMTS13 binds to CD36: a potential mechanism for platelet and endothelial localization of ADAMTS13

BACKGROUND

ADAMTS13 cleaves ultralarge von Willebrand factor (VWF) and plays a significant role in vascular biology and thrombotic thrombocytopenic purpura. CD36, a transmembrane protein present on endothelial cells and platelets (PLTs), binds to thrombospondin via three thrombospondin type 1 repeats. ADAMTS13 contains eight thrombospondin type 1 repeats.

STUDY DESIGN AND METHODS

An enzyme-linked immunoassay was used to explore the binding of recombinant human CD36 (rHuCD36) to recombinant human ADAMTS13 (rHuADAMTS13). A competition assay between rHuADAMTS13 and recombinant human (rHu)-thrombospondin-2 for binding to CD36 was then performed. Subsequently, binding of rHuADAMTS13 to PLT membrane fragments expressing CD36 (PLT glycoprotein IV) and glycoprotein Ib/IX was assessed. To examine the functional significance of an ADAMTS13-CD36 interaction, ADAMTS13 activity measured by a fluorescence resonance energy transfer assay was investigated in the presence of either rHuCD36 or concentrated PLTs.

RESULTS

rHuCD36 bound to rHuADAMTS13 in a dose-dependent fashion. rHu-thrombospondin-2 competed with ADAMTS13 for CD36 occupancy, but even high concentrations of rHu-thrombospondin-2 failed to completely block binding of rHuADAMTS13 to rHuCD36. rHuADAMTS13 bound to PLT membrane fragments expressing CD36 (PLT glycoprotein IV) in preference to PLT membrane fragments expressing glycoprotein Ib/IX. ADAMTS13 activity was not inhibited by the presence of either rHuCD36 or concentrated PLTs.

CONCLUSION

rHuADAMTS13 binds to both rHuCD36 and PLT membrane CD36 in vitro. The binding of CD36 to rHuADAMTS13 with retention of its enzymatic activity is consistent with a proposed role for CD36 in localizing ADAMTS13 on the endothelial cell surface where it regulates the cleavage of VWF.

Platelet Expression Profiling and Clinical Validation of Myeloid-Related Protein-14 as a Novel Determinant of Cardiovascular Events

Background— Platelets participate in events that immediately precede acute myocardial infarction. Because platelets lack nuclear DNA but retain megakaryocyte-derived mRNAs, the platelet transcriptome provides a novel window on gene expression preceding acute coronary events.

Methods and Results— We profiled platelet mRNA from patients with acute ST-segment–elevation myocardial infarction (STEMI, n=16) or stable coronary artery disease (n=44). The platelet transcriptomes were analyzed and single-gene models constructed to identify candidate genes with differential expression. We validated 1 candidate gene product by performing a prospective, nested case-control study (n=255 case-control pairs) among apparently healthy women to assess the risk of future cardiovascular events (nonfatal myocardial infarction, nonfatal stroke, and cardiovascular death) associated with baseline plasma levels of the candidate protein. Platelets isolated from STEMI and coronary artery disease patients contained 54 differentially expressed transcripts. The strongest discriminators of STEMI in the microarrays were CD69 (odds ratio 6.2, P <0.001) and myeloid-related protein-14 (MRP-14; odds ratio 3.3, P =0.002). Plasma levels of MRP-8/14 heterodimer were higher in STEMI patients (17.0 versus 8.0 μg/mL, P <0.001). In the validation study, the risk of a first cardiovascular event increased with each increasing quartile of MRP-8/14 ( P trend <0.001) such that women with the highest levels had a 3.8-fold increase in risk of any vascular event ( P <0.001). Risks were independent of standard risk factors and C-reactive protein.

Conclusions— The platelet transcriptome reveals quantitative differences between acute and stable coronary artery disease. MRP-14 expression increases before STEMI, and increasing plasma concentrations of MRP-8/14 among healthy individuals predict the risk of future cardiovascular events.