Hgs (Hrs), a FYVE domain protein, is involved in Smad signaling through cooperation with SARA

Smad proteins are effector molecules that transmit signals from the receptors for the transforming growth factor beta (TGF-beta) superfamily to the nucleus; of the Smad proteins, Smad2 and Smad4 are essential components for mouse early embryogenesis. We demonstrated that Hgs, a FYVE domain protein, binds to Smad2 in its C-terminal half and cooperates with another FYVE domain protein, the Smad anchor for receptor activation (SARA), to stimulate activin receptor-mediated signaling through efficient recruitment of Smad2 to the receptor. Furthermore, a LacZ knock-in allele of the C-terminal half-deletion mutant of mouse Hgs was created by gene targeting. The introduced mutation causes an embryonic lethality between embryonic days 8.5 and 10.5. Mutant cells showed significantly decreased responses to stimulation with activin and TGF-beta. These findings suggest that the two FYVE domain proteins, Hgs and SARA, are prerequisites for receptor-mediated activation of Smad2.     

Nonsynonymous single-nucleotide polymorphisms of the human apoptosis-related endonuclease--DNA fragmentation factor beta polypeptide, endonuclease G, and Flap endonuclease-1--genes show a low degree of genetic heterogeneity

DNA fragmentation factor beta (DFFB) polypeptide, endonuclease G (EndoG), and Flap endonuclease-1 (FEN-1) are responsible for DNA fragmentation, a hallmark of apoptosis. Although the human homologs of these genes show three, four, and six nonsynonymous single-nucleotide polymorphisms (SNPs), respectively, data on their genotype distributions in populations worldwide are limited. In this context, the objectives of this study were to elucidate the genetic heterogeneity of all these SNPs in wide-ranging populations, and thereby to clarify the genetic background of these apoptosis-related endonucleases in human populations. We investigated the genotype distribution of their SNPs in 13 different populations of healthy Asians, Africans, and Caucasians using novel genotyping methods. Among the 13 SNPs in the 3 genes, only 3 were found to be polymorphic: R196K and K277R in the DFFB gene, and S12L in the EndoG gene. All 6 SNPs in the FEN-1 gene were entirely monoallelic. Although it remains unclear whether each SNP would exert any effect on endonuclease functions, these genes appear to exhibit low degree of genetic heterogeneity with regard to nonsynonymous SNPs. These findings allow us to conclude that human apoptosis-related endonucleases, similarly to other human DNase genes, revealed previously, are well conserved at the protein level during the course of human evolution.     

Microtubule‐organizing centers of Aspergillus nidulans are anchored at septa by a disordered protein

Microtubule‐organizing centers (MTOCs) are large, multi‐subunit protein complexes. Schizosaccharomyces pombe harbors MTOCs at spindle pole bodies, transient MTOCs in the division plane (eMTOCs) and nuclear‐envelope associated MTOCs in interphase cells (iMTOCs). In the filamentous fungus Aspergillus nidulans SPBs and septum‐associated MTOCs were described. Although comparable to S. pombe eMTOCs, A. nidulans sMTOCS are permanent septum‐associated structures. The composition of sMTOCs is poorly understood and how they are targeted to septa was unknown. Here, we show that in A. nidulans several SPB outer plaque proteins also locate to sMTOCs while other SPB proteins do not, including SfiA, a protein required for SPB duplication in Saccharomyces cerevisiae and S. pombe and PcpA, the anchor for γ‐TuSCs at the SPB inner plaque. The A. nidulans disordered protein Spa18^Mto2 and the centrosomin‐domain containing protein ApsB^Mto1 were required for recruiting the γ‐TuRC component GcpC to sMTOCs and for seeding MT formation from septa. Testing different septum‐associated proteins for a role in sMTOC function, Spa10 was identified. It forms a septal pore disc structure, recruits Spa18 and ApsB to septa and is required for sMTOC activity. This is the first evidence for a septum‐specific protein, Spa10, as anchor for a specific class of MTOCs.     

Hydroxyl Radical Generation Caused by the Reaction of Singlet Oxygen with a Spin Trap,DMPO, Increases Significantly in the Presence of Biological Reductants

Photosensitizers newly developed for photodynamic therapy of cancer need to be assessed using accurate methods of measuring reactive oxygen species (ROS). Little is known about the characteristics of the reaction of singlet oxygen (¹O²) with spin traps, although this knowledge is necessary in electron spin resonance (ESR)/spin trapping. In the present study, we examined the effect of various reductants usually present in biological samples on the reaction of ¹O² with 5,5-dimethyl-1-pyrroline-N-oxide (DMPO). The ESR signal of the hydroxyl radical (?OH) adduct of DMPO (DMPO-OH) resulting from ¹O²-dependent generation of ?OH strengthened remarkably in the presence of reduced glutathione (GSH), 6-hydroxy-2,5,7,8-tetramethylchroman-2-carboxylic acid (Trolox), ascorbic acid, NADPH, etc. A similar increase was observed in the photosensitization of uroporphyrin (UP), rose bengal (RB) or methylene blue (MB). Use of 5-(diethoxyphosphoryl)-5-methyl-1-pyrroline-N-oxide (DEPMPO) as a spin trap significantly lessened the production of its ?OH adduct (DEPMPO-OH) in the presence of the reductants. The addition of DMPO to the DEPMPO-spin trapping system remarkably increased the signal intensity of DEPMPO-OH. DMPO-mediated generation of ?OH was also confirmed utilizing the hydroxylation of salicylic acid (SA). These results suggest that biological reductants enhance the ESR signal of DMPO-OH produced by DMPO-mediated generation of ?OH from ¹O², and that spin trap-mediated ?OH generation hardly occurs with DEPMPO.     

Mitogen-activated protein kinase involves neutrophil elastase-induced morphological changes in human bronchial epithelial cells.

Neutrophil elastase (NE) promotes the detachment of airway epithelial cells; however, changes in overall morphology of NE-stimulated bronchial epithelial cell (BEC) monolayer are different from trypsin stimulation. Ras/Raf-initiated-mitogen activated protein kinase (MAPK) also known as extracellular signal-regulated kinase, pathway regulates integrin functions which participate in regulating attachment and detachment of cell and cellular morphology. However, little is known about the role of MAPK in NE-induced changes in overall morphology of BEC. In the present study, we examined the role of MAPK in NE-induced changes in overall morphology of BEC monolayer. To this end, we examined changes in cellular morphology and MAPK activation in NE-stimulated BEC monolayer, and the effect of PD 98059 as the specific inhibitor for MAPK kinase-1 (MEK-1, the upstream regulator of MAPK) on NE-induced changes in cellular morphology and MAPK activation. The results showed that in stimulation of NE, BECs detached and gaps developed, and MAPK activation was observed. PD 98059 attenuated NE-induced changes in cellular morphology as well as MAPK activation. These results indicated that in addition to proteolytic activity of NE on extracellular matrix (ECM), NE-activated MAPK pathway, at least in part, is involved in NE-induced changes in overall morphology and the detachment of BEC monolayer.     

Functional and genetic survey of all known single-nucleotide polymorphisms within the human deoxyribonuclease I gene in wide-ranging ethnic groups

The single-nucleotide polymorphisms (SNPs) in the human DNase I gene (DNASE1) might be involved in susceptibility to some common diseases; however, only limited population data are available. Further, the effects of these SNPs on in vivo DNase I activity remain unknown. The genotype and haplotype of all the SNPs in DNASE1 were determined in 3 ethnic groups including 14 populations using newly developed methods. Together with our previous data on the nonsynonymous SNPs, two major haplotypes based on the five exonic SNPs were identified; genetic diversity in the Asian population was low. Among 10 SNPs, other than exonic SNPs in the gene, only 3 were polymorphic among all the populations. Haplotype distribution, based on all the polymorphic SNPs, was clarified to be generally varied in an ethnic-dependent manner. Thus, the genetic aspects of DNASE1 with regard to all the SNPs in wide-ranging ethnic groups could be first demonstrated. Further, there was no correlation of all the polymorphic SNPs other than nonsynonymous ones with serum DNase I activity levels. Polymorphic SNPs other than the exonic SNPs might not be directly related to common diseases through alterations in in vivo levels of the activity.