Differential expression of bovine adseverin in adrenal gland revealed by in situ hybridization. Cloning of a cDNA for adseverin

Adseverin knockdown inhibits osteoclastogenesis in RAW264.7 cells

Osteoclastogenesis is a complex process that is highly dependent on the dynamic regulation of the actin cytoskeleton. Adseverin (Ads), a member of the gelsolin superfamily of actin-binding proteins, regulates actin remodeling by severing and capping actin filaments. The objective of the present study was to characterize the role of Ads during osteoclastogenesis by assessing Ads expression and using a knockdown strategy. Immunoblot analyses were used to examine Ads expression during osteoclastogenesis. A stable Ads knockdown macrophage cell line was generated using a retroviral shRNA construct. Osteoclast differentiation was morphologically examined via cell staining with osteoclast specific markers and light microscopy. The results showed that Ads expression was significantly increased in response to receptor activator of nuclear factor-κB ligand during osteoclastogenesis, and Ads was highly expressed in mature osteoclasts. Ads-knockdown macrophages showed major osteoclastogenesis defects, most likely caused by a pre-osteoclast fusion defect. These results indicate that Ads deficiency in monocytes inhibits osteoclastogenesis. Thus, in future studies it could be noteworthy to investigate the function of Ads in bone marrow monocytes during osteoclastogenesis.

Duplicated gelsolin family genes in zebrafish: a novel scinderin-like gene (scinla) encodes the major corneal crystallin

We have previously identified a gelsolin-like protein (C/L-gelsolin) as a corneal crystallin in zebrafish. Here we show by phylogenetic analysis that there are at least six genes encoding gelsolin-like proteins based on their gelsolin domains in zebrafish: gsna and gsnb group with the vertebrate gelsolin gene, scina and scinb group with the scinderin (adseverin) gene, and scinla (C/L-gelsolin) and scinlb are novel scinderin-like genes. RT-PCR showed that scinla, scinlb, and gsnb are preferentially expressed in the adult cornea whereas gsna is expressed to a similar extent in cornea, lens, brain, and heart; scina and scinb expression were detectable only in whole zebrafish and not in these adult tissues. Quantitative RT-PCR and 2-dimensional polyacrylamide gel electrophoresis followed by MALDI/TOF mass spectroscopy confirmed high expression of beta-actin and scinla, moderate expression of scinlb, and very low expression of gsna and gsnb in the cornea. Finally, transgenic zebrafish carrying a green fluorescent protein reporter transgene driven by a 4 kb scinla promoter fragment showed expression in the cornea, snout, dorsal fin, and tail fin of 3-day-old zebrafish larvae. Our data suggest that scinla and scinlb are diverged paralogs of the vertebrate scinderin gene and show that scinla encodes the zebrafish corneal crystallin previously called C/L-gelsolin.

Mechanism of depolymerization and severing of actin filaments and its significance in cytoskeletal dynamics

The actin cytoskeleton is one of the major structural components of the cell. It often undergoes rapid reorganization and plays crucial roles in a number of dynamic cellular processes, including cell migration, cytokinesis, membrane trafficking, and morphogenesis. Actin monomers are polymerized into filaments under physiological conditions, but spontaneous depolymerization is too slow to maintain the fast actin filament dynamics observed in vivo. Gelsolin, actin-depolymerizing factor (ADF)/cofilin, and several other actin-severing/depolymerizing proteins can enhance disassembly of actin filaments and promote reorganization of the actin cytoskeleton. This review presents advances as well as a historical overview of studies on the biochemical activities and cellular functions of actin-severing/depolymerizing proteins.

Isolation of differentially expressed genes in conceptuses and endometrial tissue of sows in early gestation

The implantation period is a critical time for embryonic survival in pigs. During this period, numerous growth factors are secreted by the conceptuses and the uterine endometrium in order to establish pregnancy and to provide a proper environment for embryonic development. It is well known that the Chinese Meishan sows have a larger litter size when compared with occidental sows mainly because of a superior embryonic survival rate. As a further step toward understanding the mechanisms involved in embryonic survival, we used a suppression subtractive hybridization technique to identify genes that were differentially expressed in Meishan-Landrace conceptuses and endometrial tissue at Day 15 of gestation when compared with conventional Landrace sows. Of the 1000 subtractive clones isolated from each library, 137 endometrial and 166 conceptus-enriched cDNAs were single-pass sequenced and examined by BLAST analysis for identification. Sixty-two percent of the clones found in the endometrial library and 78% of the clones found in the conceptus library showed homology with known genes. Among these genes, the 20 most relevant to embryonic survival based on the available literature were validated through real-time reverse-transcriptase polymerase chain reaction (RT-PCR) analysis. Our results show that suppression subtractive hybridization is a powerful method applicable in identifying putative candidate genes that might be used for selection of high litter-size breeds.

HERV-F (XA34) is a full-length human endogenous retrovirus expressed in placental and fetal tissues

The complete sequence of XA34 was identified from a 107 kb genomic clone originating from the human chromosome 7q31.1-q31.3. The 7.1 kb human endogenous retrovirus (HERV) contains LTR's, gag, pol and env, and a pol sequence which is identical to the 2.3 kb XA34 cDNA clone which we previously isolated from a human glioma cDNA library (Widegren et al., 1996). The HERV is located in a reversed orientation within an intron-sequence of a gene similar to mouse adseverin(D5). The gag and protease regions are intact. However, the pol and env regions are truncated by a deletion which removes the C-terminal end of the integrase and the complete surface protein. The HERV sequence is bordered by a five base-pair direct repeat and has the TG...CA structure. Over the complete HERV genome, XA34 is very similar to members of the HERV-F family and shares the same primer binding site which is homologous to phenylalanine (F) tRNA. Therefore, XA34 is termed HERV-F(XA34). HERV-F(XA34) has an open reading frame (ORF) of 1000 bp in the gag region which starts with Met-Gly in a favorable context and stops in the capsid protein. A strong mRNA expression of HERV-F(XA34) is demonstrated in placental tissue, mainly residing in two transcripts of approximately 7.5 and 8.5-9 kb respectively. Analyses of expressed sequence tags (ESTs) have identified the expression of HERV-F(XA34) sequences in placental tissue, fetal liver/spleen, olfactory epithelium and in an epithelial skin tumor. EST analysis has also identified splice variants of HERV-F(XA34), in which the gag, pol and most of the env regions are spliced out. These splice variants contain a short ORF encoded in the region from the C-terminal portion of env to the 3'-LTR. In addition, ESTs identical to HERV-Fb have been identified in retinal, fetal liver/spleen and brain tissue as well as Jurkat cells. The analyses indicate that the 5'-LTR of HERV-Fb may function as an alternative poly A site of a Krüppel related zinc finger gene (ZNF195).

Differential developmentally regulated expression of gelsolin family members in the mouse

The gelsolin family of actin-modulating proteins contains seven mammalian members of which three have similar domain structure and function: gelsolin, capG, and adseverin. Previous studies have provided some information on the expression of these proteins, but no comprehensive analysis of expression during development has been performed. By in situ hybridization to murine embryo sections, we show that gelsolin expression is widespread but focal from e12.5 onward, with the exception of brain and mucosal epithelium. In contrast, CapG expression is high in mucosal epithelium, inner renal medulla, and adrenal cortex, and seen at much lower levels more broadly. Adseverin expression is even more restricted, being seen at sites of endochondral bone formation during development only, and in developing and adult outer renal medulla and intestine. In parallel analyses the three genes demonstrated patterns of expression that were complementary and non-overlapping in nearly all organs. The observations suggest new functions for these proteins in organ systems and tissues where their expression was not previously recognized. They further suggest that the proteins have distinct tissue-specific functions in modulating the actin cytoskeleton during cellular motile activities, and that such functions have diverged since the genes arose ancestrally by gene duplication. Dev Dyn 1999;215:297-307.

Calcium-dependent actin filament-severing protein scinderin levels and localization in bovine testis, epididymis, and spermatozoa

We assessed the levels and localization of the actin filament-severing protein scinderin, in fetal and adult bovine testes, and in spermatozoa during and following the epididymal transit. We performed immunoblots on seminiferous tubules and interstitial cells isolated by enzymatic digestion, and on bovine chromaffin cells, spermatozoa, aorta, and vena cava. Immunoperoxidase labeling was done on Bouin's perfusion-fixed testes and epididymis tissue sections, and on spermatozoa. In addition, immunofluorescence labeling was done on spermatozoa. Immunoblots showed one 80-kDa band in chromaffin cells, fetal and adult tubules, interstitial cells, spermatozoa, aorta, and vena cava. Scinderin levels were higher in fetal than in adult seminiferous tubules but showed no difference between fetal and adult interstitial cells. Scinderin levels were higher in epididymal than in ejaculated spermatozoa. Scinderin was detected in a region corresponding with the subacrosomal space in the round spermatids and with the acrosome in the elongated spermatids. In epididymal spermatozoa, scinderin was localized to the anterior acrosome and the equatorial segment, but in ejaculated spermatozoa, the protein appeared in the acrosome and the post-equatorial segment of the head. In Sertoli cells, scinderin was detected near the cell surface and within the cytoplasm, where it accumulated near the base in a stage-specific manner. In the epididymis, scinderin was localized next to the surface of the cells; in the tail, it collected near the base of the principal cells. In Sertoli cells and epididymal cells, scinderin may contribute to the regulation of tight junctional permeability and to the release of the elongated spermatids by controlling the state of perijunctional actin. In germ cells, scinderin may assist in the shaping of the developing acrosome and influence the fertility of the spermatozoa.

Murine adseverin (D5), a novel member of the gelsolin family, and murine adseverin are induced by interleukin-9 in T-helper lymphocytes

We identified a number of upregulated genes by differential screening of interleukin-9-stimulated T-helper lymphocytes. Interestingly, two of these messengers encode proteins that are similar to proteins of the gelsolin family. The first displays a typical structure of six homologous domains and shows a high level of identity (90%) with bovine adseverin (or scinderin) and may therefore be considered the murine adseverin homolog. The second encodes a protein with only five segments. Sequence comparison shows that most of the fifth segment and a short amino-terminal part of the sixth segment (amino acids 528 to 628 of adseverin) are missing, and thus, this form may represent an alternatively spliced product derived from the same gene. The corresponding protein is called mouse adseverin (D5). We expressed both proteins in Escherichia coli and show that mouse adseverin displays the typical characteristics of all members of the gelsolin family with respect to actin binding (capping, severing, and nucleation) and its regulation by Ca2+. In contrast, mouse adseverin (D5) fails to nucleate actin polymerization, although like mouse adseverin and gelsolin, it severs and caps actin filaments in a Ca2+-dependent manner. Adseverin is present in all of the tissues and most of the cell lines tested, although at low concentrations. Mouse adseverin (D5) was found only in blood cells and in cell lines derived from T-helper lymphocytes and mast cells, where it is weakly expressed. In a gel filtration experiment, we demonstrated that mouse adseverin forms a 1:2 complex with G actin which is stable only in the presence of Ca2+, while no stable complex was observed for mouse adseverin (D5).

Advillin (p92): a new member of the gelsolin/villin family of actin regulatory proteins

A new member of the gelsolin/villin family of actin regulatory proteins was initially identified by screening an adult murine brain cDNA library with a probe for bovine adseverin. The predicted amino acid sequence of the 92 kDa murine protein p92 (advillin) is 75% homologous to villin and 65% homologous to gelsolin and adseverin. It shares a six domain structure with other gelsolin family members and has a carboxy-terminal headpiece, similar to, yet distinct from, villin. Northern blot analysis shows a high level of mRNA expression in murine uterus and human intestine. In situ mRNA analysis of adult murine tissues demonstrates that the message is most highly expressed in the endometrium of the uterus, the intestinal lining, and at the surface of the tongue. In murine embryonic development, strong expression of the message is observed by day 14.5 in dorsal root ganglia and trigeminal ganglia. Expression is also noted at day 16.5 in cerebral cortex. We propose that p92 (advillin) has unique functions in the morphogenesis of neuronal cells which form ganglia, and that it may compensate to explain the near normal phenotype observed in villin-deficient mice.

Functional characteristics and the complete primary structure of ascidian gelsolin

The body wall of the ascidian is composed of unusual multi-nucleated smooth muscle cells enriched with thin actin filaments containing troponin-tropomyosin which run along the longitudinal cell axis without being organized into striated structures. We purified an actin-binding protein of 80 kDa, tentatively termed 80K protein, from the body wall muscle of ascidian, Halocynthia roretzi, and characterized the functional properties and molecular structures. In the presence of Ca2+, the 80K protein accelerated the initial phase of actin polymerization, namely the nucleation process, decreased the level of polymerization at the steady state, caused marked reduction in viscosity of an F-actin solution, and fragmented F-actin filaments, while in the absence of Ca2+, it remained associated with F-actin without severing the filaments. The interaction of the 80K protein with actin was inhibited by phosphatidylinositol 4,5-bisphosphate (PIP2). When actin was polymerized in the presence of acrosome actin bundles from horseshoe crab sperm, the 80K protein inhibited the growth of actin filaments at the barbed end but not at the pointed end, indicating that the 80K protein functions as a barbed-end capping protein. In order to characterize the molecular structure of the 80K protein, cDNAs encoding this protein were isolated from the lambda gt11 cDNA library of the ascidian muscle by using a monoclonal antibody (AS23) specific for this protein and the entire sequence was determined. The deduced peptide sequence showed about 44% homology in amino acid residues with the human gelsolin sequence, and in addition, 6 repeating segments were observed in the sequence of the 80K protein as has been described in the gelsolin sequence. These results indicate strongly that the 80K protein belongs to the gelsolin family.

Localization by segmental deletion analysis and functional characterization of a third actin-binding site in domain 5 of scinderin

Scinderin is a Ca2+-dependent actin filament severing protein present in a variety of secretory cells. Previous work suggests that scinderin-evoked cortical F-actin disassembly is required for secretion because local disassembly of cortical cytoskeleton allows secretory vesicle exocytosis (Vitale, M. L., Rodríguez Del Castillo, A., Tchakarov, L., and Trifaró, J.-M. (1991) J. Cell Biol. 113, 1057-1067). Scinderin has six domains each containing three internal sequence motifs, two actin, and two phosphatidylinositol disphosphate-binding sites in domains 1 and 2. In this paper we report the presence of another actin-binding site at the NH2-terminal of domain 5 (Sc511-518). This site binds actin in a Ca2+-independent manner and a recombinant fragment (Sc5-6 or Sc502-715) containing this site binds to actin-DNase-I-Sepharose 4B beads, co-sediments with actin and is able to nucleate actin assembly. Recombinant ScL5-6, a fusion protein devoid of the actin-binding site (Sc519-715), did not exhibit these properties. Moreover, Sc-ABP3, a peptide constructed with sequence (RLFQVRRNLASIT) identical to Sc511-523 blocked the binding of Sc5-6 to actin. Sc5-6 and Sc-ABP3 also prevented the actin severing activity of recombinant full-length scinderin (r-Sc) and inhibited the potentiation by r-Sc of Ca2+-evoked release of serotonin from permeabilized platelets. On the other hand, ScL5-6 failed to block the effect of r-Sc on platelet serotonin release. Sc1-4,6, a construct devoid of domain 5, was able to sever but unable to nucleate actin, indicating that an actin nucleation site of scinderin was in domain 5. The results suggest that scinderin, in addition to binding actin on sites present in domains 1 and 2, must bind actin on a third site in domain 5 to sever and nucleate actin effectively.

Inositol 1,4,5-trisphosphate receptors, secretory granules and secretion in endocrine and neuroendocrine cells

Recent studies have revealed the presence of inositol 1,4,5-trisphosphate receptors in the secretory granules of endocrine and neuroendocrine cells. This distribution suggests that inositol 1,4,5-trisphosphate-regulated release of granule stores of Ca2+ might facilitate the secretory process. In addition, inositol 1,4,5-trisphosphate receptors might participate directly in the biogenesis of secretory granules. The presence of inositol 1,4,5-trisphosphate receptors in synaptic nerve terminals raises the possibility that they might also be involved in the control of neurotransmitter release.