The formin homology domain-containing protein1 (FHOD1) suppresses actin polymerization by inhibiting nucleation, but bundles actin filaments and caps filament barbed ends. Two polyclonal antibodies ...against FHOD1 were generated against (i) its N-terminal sequence (residues 1–339) and (ii) a peptide corresponding the sequence from position 358–371, which is unique for FHOD1 and does not occur in its close relative FHOD3. After affinity purification both antibodies specifically stain purified full length FHOD1 and a band of similar molecular mass in homogenates of cardiac muscle. The antibody against the N-terminus of FHOD1 was used for immunostaining cells of established lines, primary neonatal (NRC) and adult (ARC) rat cardiomyocytes and demonstrated the presence of FHOD1 in HeLa and fibroblastic cells along stress fibers and within presumed lamellipodia and actin arcs. In NRCs and ARCs we observed a prominent staining of presumed intercalated discs (ICD). Immunostaining of sections of hearts with both anti-FHOD1 antibodies confirmed the presence of FHOD1 in ICDs and double immunostaining demonstrated its colocalisation with cadherin, plakoglobin and a probably slightly shifted localization to connexin43. Similarly, immunostaining of isolated mouse or pig ICDs corroborated the presence of FHOD1 and its colocalisation with the mentioned cell junctional components. Anti-FHOD1 immunoblots of isolated ICDs demonstrated the presence of an immunoreactive band comigrating with purified FHOD1. Conversely, an anti-peptide antibody specific for FHOD3 with no cross-reactivity against FHOD1 immunostained on sections of cardiac muscle and ARCs the myofibrils in a cross-striated pattern but not the ICDs. In addition, the anti-peptide-FHOD1 antibody stained the lateral sarcolemma of ARCs in a banded pattern. Double immunostaining with anti-cadherin and -integrin-ß1 indicated the additional localization of FHOD1 in costameres. Immunostaining of cardiac muscle sections or ARCs with antibodies against mDia3-FH2-domain showed colocalisation with cadherin along the lateral border of cardiomyocytes suggesting also its presence in costameres.
Etoposide inhibits topoisomerase II and induces apoptosis in human epidermoid cancer cells (A431) and normal rat fibroblasts (NRK) as verified by apoptotic morphology and chromatin degradation. Here ...we examine changes in the localisation of actin, cofilin and the Arp2/3 complex during the apoptotic process in response to etoposide. Twenty-four hours after etoposide addition, a large number of cells of both lines exhibited nuclear and cytoplasmic fragmentation with the formation of numerous blebs typical of apoptosis. Etoposide exposure induces dissolution of stress fibres and an increase in actin and cofilin in membrane patches and apoptotic blebs. The actin is more peripherally located than the cofilin, similar to that reported for lamellipodia of highly motile keratocytes. By contrast, in control cells, cofilin is evenly distributed throughout the cytoplasm, though often enriched around the nucleus. The active form is inferred to be more peripherally localised and to be present in apoptotic blebs, since an antibody specific for phosphorylated cofilin did not stain the cell periphery nor apoptotic blebs. Although immunoblots of 2D gels demonstrate that the ratio of de-phosphorylated to phosphorylated cofilin does not change after etoposide treatment, this does not mean that there are no changes in the turnover of the active and inactive forms. Transfection of both cell lines with EGFP-containing constructs of wild-type cofilin and mutants resembling its activated (S3A) and inactivated (S3D) forms shows that the active form has a more peripheral localisation and is also present in the membrane blebs with a strong colocalisation with actin. We further show that Arp 2/3 also localises in apoptotic blebs and discuss the role of these proteins in apoptosis by analogy with actin-based protrusive motility in lamellipodia.
Cell death by apoptosis occurs in a wide range of physiological events including repertoire selection of lymphocytes and during immune responses in vivo. A hallmark of apoptosis is the ...internucleosomal DNA degradation for which a Ca2+,Mg(2+)‐dependent endonuclease has been postulated. This nuclease activity was extracted from both rat thymocyte and lymph node cell nuclei. When incubated with nuclei harbouring only limited amounts of endogenous nuclease activity, the ladder pattern of DNA fragments characteristic of apoptosis was induced. This extractable nucleolytic activity was immunoprecipitated with antibodies specific for rat deoxyribonuclease I (DNase I) and was inhibited by actin in complex with gelsolin segment 1, strongly pointing to the presence of a DNase I‐type enzyme in the nuclear extracts. COS cells transiently transfected with the cDNA of rat parotid DNase I expressed the enzyme, and their nuclei were able to degrade their DNA into oligosome‐sized fragments. PCR analysis of mRNA isolated from thymus, lymph node cells and kidney yielded a product identical in size to that from rat parotid DNase I. Immunohistochemical staining with antibodies to rat DNase I confirmed the presence of DNase I antigen in thymocytes and lymph node cells. The tissue distribution of DNase I is thus extended to tissues with no digestive function and to cells which are known to be susceptible to apoptosis. We propose that during apoptosis, an endonuclease indistinguishable from DNase I gains access to the nucleus due to the breakdown of the ER and the nuclear membrane.
The general protein kinase inhibitor staurosporine (STS) has dual effects on human epidermoid cancer cells (A431) and normal rat kidney fibroblasts (NRK). It almost immediately stimulated increased ...lamellipodial activity of both cell lines and after 2
h induced typical signs of apoptosis, including cytoplasmic condensation, nuclear fragmentation, caspase-3 activation and DNA degradation. In the early phase we observed disruption of actin-containing stress fibres and accumulation of monomeric actin in the perinuclear region and cell nucleus. Increased lamellipodial-like extensions were observed particularly in A431 cells as demonstrated by co-localisation of actin and Arp2/3 complex, whereas NRK cells shrunk and exhibited numerous thin long extensions. These extensions exhibited uncoordinated centrifugal motile activity that appeared to tear the cells apart. Both cofilin and ADF were translocated from perinuclear regions to the cell cortex and, as expected in the presence of a kinase inhibitor, all the cofilin was dephosphorylated. Myosin II was absent from the extensions, and a reduction of phosphorylated myosin light chains was observed within the cytoplasm indicating myosin inactivation. Microtubules and intermediate filaments retained their characteristic filamentous organisation after STS exposure even when the cells became rounded and disorganised. Simultaneous treatment of NRK cells with STS and the caspase inhibitor zVAD did not inhibit the morphological and cytoskeletal changes. However, the cells underwent cell death as verified by positive annexin-V-staining. Thus it seems likely that cell death induced by STS may not only be a consequence of the activation of caspase, instead the disruption of the many motile processes involving the actin cytoskeleton may by itself suffice to induce caspase-independent cell death.
Cytoplasmic beta-actin supports fundamental cellular processes in healthy and diseased cells including cell adhesion, migration, cytokinesis and maintenance of cell polarity. Mutations in ACTB, the ...gene encoding cytoplasmic beta-actin, lead to severe disorders with a broad range of symptoms. The two dominant heterozygous gain-of-function beta-actin mutations p.R183W and p.E364K were identified in patients with developmental malformations, deafness and juvenile-onset dystonia (p.R183W) and neutrophil dysfunction (p.E364K). Here, we report the recombinant production and functional characterization of the two mutant proteins. Arg183 is located near the nucleotide-binding pocket of actin. Our results from biochemical studies and molecular dynamics simulations show that replacement by a tryptophan residue at position 183 establishes an unusual stacking interaction with Tyr69 that perturbs nucleotide release from actin monomers and polymerization behavior by inducing a closed state conformation. The replacement of Glu364 by a lysine residue appears to act as an allosteric trigger event leading to the preferred formation of the closed state. Thus, our approach indicates that both mutations affect interdomain mobility and nucleotide interactions as a basis for the formation of disease phenotypes in patients.
Platelet and fibrin clots occlude blood vessels in hemostasis and thrombosis. Here we report a noncanonical mechanism for vascular occlusion based on neutrophil extracellular traps (NETs), DNA fibers ...released by neutrophils during inflammation. We investigated which host factors control NETs in vivo and found that two deoxyribonucleases (DNases), DNase1 and DNase1-like 3, degraded NETs in circulation during sterile neutrophilia and septicemia. In the absence of both DNases, intravascular NETs formed clots that obstructed blood vessels and caused organ damage. Vascular occlusions in patients with severe bacterial infections were associated with a defect to degrade NETs ex vivo and the formation of intravascular NET clots. DNase1 and DNase1-like 3 are independently expressed and thus provide dual host protection against deleterious effects of intravascular NETs.
DNase1 is regarded as the major serum nuclease; however, a systematic investigation into the presence of additional serum nuclease activities is lacking. We have demonstrated directly that serum ...contains DNase1-like3 (DNase1l3) in addition to DNase1 by an improved denaturing SDS-PAGE zymography method and anti-murine DNase1l3 immunoblotting. Using DNA degradation assays, we compared the activities of recombinant murine DNase1 and DNase1l3 (rmDNase1, rmDNase1l3) with the serum of wild-type and DNase1 knockout mice. Serum and rmDNase1 degrade chromatin effectively only in cooperation with serine proteases, such as plasmin or thrombin, which remove DNA-bound proteins. This can be mimicked by the addition of heparin, which displaces histones from chromatin. In contrast, serum and rmDNase1l3 degrade chromatin without proteolytic help and are directly inhibited by heparin and proteolysis by plasmin. In previous studies, serum DNase1l3 escaped detection because of its sensitivity to proteolysis by plasmin after activation of the plasminogen system in the DNA degradation assays. In contrast, DNase1 is resistant to plasmin, probably as a result of its di-N-glycosylation, which is lacking in DNase1l3. Our data demonstrate that secreted rmDNase1 and murine parotid DNase1 are mixtures of three different di-N-glycosylated molecules containing two high-mannose, two complex N-glycans or one high-mannose and one complex N-glycan moiety. In summary, serum contains two nucleases, DNase1 and DNase1l3, which may substitute or cooperate with each other during DNA degradation, providing effective clearance after exposure or release from dying cells.
Deoxyribonuclease 1 (DNASE1, DNase I) and deoxyribonuclease 1-like 3 (DNASE1L3, DNase gamma, DNase Y, LS-DNase) are members of a DNASE1 protein family that is defined by similar biochemical ...properties such as Ca2+/Mg2+-dependency and an optimal pH of about 7.0 as well as by a high similarity in their nucleic acid and amino acid sequences. In the present study we describe the recombinant expression of rat Dnase1 and murine Dnase1l3 as fusion proteins tagged by their C-terminus to green fluorescent protein in NIH-3T3 fibroblasts and bovine lens epithelial cells. Both enzymes were translocated into the rough endoplasmic reticulum, transported along the entire secretory pathway and finally secreted into the cell culture medium. No nuclear occurrence of the nucleases was detectable. However, deletion of the N-terminal signal peptide of both nucleases resulted in a cytoplasmic and nuclear distribution of both fusion proteins. Dnase1 preferentially hydrolysed 'naked' plasmid DNA, whereas Dnase1l3 cleaved nuclear DNA with high activity. Dnase1l3 was able to cleave chromatin in an internucleosomal manner without proteolytic help. By contrast, Dnase1 was only able to achieve this cleavage pattern in the presence of proteases that hydrolysed chromatin-bound proteins. Detailed analysis of murine sera derived from Dnase1 knockout mice revealed that serum contains, besides the major serum nuclease Dnase1, an additional Dnase1l3-like nucleolytic activity, which, in co-operation with Dnase1, might help to suppress anti-DNA autoimmunity by degrading nuclear chromatin released from dying cells.
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