MPK‐1/ERK is required for the full activity of resveratrol in extended lifespan and reproduction

Resveratrol (RSV) extends the lifespan of various organisms through activation of sirtuin. However, whether RSV‐mediated longevity is entirely dependent upon sirtuin is still controversial. Thus, understanding additional mechanisms concerning the genetic requirements for the biological activity of RSV needs to be clarified to utilize the beneficial effects of RSV. In this study using Caenorhabditis elegans as a model system, we found that MPK‐1 (an ERK homolog) signaling is necessarily required for RSV‐mediated longevity of sir‐2.1/sirtuin mutants as well as for wild‐type worms. We demonstrated that MPK‐1 contributes to RSV‐mediated longevity through nuclear accumulation of SKN‐1 in a SIR‐2.1/DAF‐16 pathway‐independent manner. The positive effect of RSV in regulating lifespan was completely abolished by RNA interference against mpk‐1 in the sir‐2.1 and daf‐16 mutants, strongly indicating that the MPK‐1/SKN‐1 pathway is involved in RSV‐mediated longevity, independently of SIR‐2.1/DAF‐16. We additionally found that RSV protected worms from oxidative stress via MPK‐1. In addition to organismal aging, RSV prevented the age‐associated loss of mitotic germ cells, brood size, and reproductive span through MPK‐1 in C. elegans germline. Therefore, our findings not only provide new mechanistic insight into the controversial effects of RSV on organismal longevity, but additionally have important implications in utilizing RSV to improve the outcome of aging‐related diseases.     

The C. elegans TIA‐1/TIAR homolog TIAR‐1 is required to induce germ cell apoptosis

In Caenorhabditis elegans, physiological germ cell apoptosis eliminates more than half of the cells in the hermaphrodite gonad to support gamete quality and germline homeostasis by a still unidentified mechanism. External factors can also affect germ cell apoptosis. The BH3‐only protein EGL‐1 induces germ cell apoptosis when animals are exposed to pathogens or agents that produce DNA damage. DNA damage‐induced apoptosis also requires the nematode p53 homolog CEP‐1. Previously, we found that heat shock, oxidative, and osmotic stresses induce germ cell apoptosis through an EGL‐1 and CEP‐1 independent mechanism that requires the MAPKK pathway. However, we observed that starvation increases germ cell apoptosis by an unknown pathway. Searching for proteins that participate in stress‐induced apoptosis, we found the RNA‐binding protein TIAR‐1 (a homolog of the mammalian TIA‐1/TIAR family of proteins). Here, we show that TIAR‐1 in C. elegans is required to induce apoptosis in the germline under several conditions. We also show that TIAR‐1 acts downstream of CED‐9 (a BCL2 homolog) to induce apoptosis under stress conditions, and apparently does not seem to regulate ced‐4 or ced‐3 mRNAs accumulation directly. TIAR‐1 is expressed ubiquitously in the cytoplasm of the soma as well as the germline, where it sometimes associates with P granules. We show that animals lacking TIAR‐1 expression are temperature sensitive sterile due to oogenesis and spermatogenesis defects. Our work shows that TIAR‐1 is required for proper germline function and demonstrates that this protein is important to induce germ cell apoptosis under several conditions. genesis 51:690–707. © 2013 Wiley Periodicals, Inc.     

Cytological study on Sertoli cells and their interactions with germ cells during annual reproductive cycle in turtle

Sertoli cells (SCs) play a central role in the development of germ cells within functional testes and exhibit varying morphology during spermatogenesis. This present study investigated the seasonal morphological changes in SCs in the reproductive cycle of Pelodiscus sinensis by light microscopy, transmission electron microscopy (TEM), and immunohistochemistry. During hibernation period with the quiescent of spermatogenesis, several autophagosomes were observed inside the SCs, the processes of which retracted. In early spermatogenesis, when the germ cells started to proliferate, the SCs contained numerous lipid droplets instead of autophagosomes. In late spermatogenesis, the SCs processes became very thin and contacted several round/elongated spermatids in pockets. At this time, abundant endoplasmic reticulum and numerous mitochondria were present in the SCs. The organization of the tight junctions and the adherens junctions between the SCs and germ cells also changed during the reproductive cycle. Moreover, SCs were involved in the formation of cytoplasmic bridges, phagophores, and exosome secretions during spermatogenesis. Tubulobulbar complexes (TBC) were also developed by SCs around the nucleus of the spermatid at the time of spermiation. Strong, positive expression of vimentin was noted on the SCs during late spermatogenesis compared with the hibernation stage and the early stage of spermatogenesis. These data provide clear cytological evidence about the seasonal changes in SCs, corresponding with their different roles in germ cells within the Chinese soft‐shelled turtle Pelodiscus sinensis.     

Germ cell survival in C. elegans and C. remanei is affected when the dead box rna helicases Vbh‐1 or Cre‐VBH‐1 are silenced

The Vasa family of proteins comprises several conserved DEAD box RNA helicases important for mRNA regulation whose exact function in the germline is still unknown. In Caenorhabditis elegans, there are six known members of the Vasa family, and all of them are associated with P granules. One of these proteins, VBH‐1, is important for oogenesis, spermatogenesis, embryo development, and the oocyte/sperm switch in this nematode. We decided to extend our previous work in C. elegans to sibling species Caenorhabditis remanei to understand what is the function of the VBH‐1 homolog in this gonochoristic species. We found that Cre‐VBH‐1 is present in the cytoplasm of germ cells and it remains associated with P granules throughout the life cycle of C. remanei. Several aspects between VBH‐1 and Cre‐VBH‐1 function are conserved like their role during oogenesis, spermatogenesis, and embryonic development. However, Cre‐vbh‐1 silencing in C. remanei had a stronger effect on spermatogenesis and spermatid activation than in C. elegans. An unexpected finding was that silencing of vbh‐1 in the C. elegans caused a decrease in germ cell apoptosis in the hermaphrodite gonad, while silencing of Cre‐vbh‐1 in C. remanei elicited germ cell apoptosis in the male gonad. These data suggest that VBH‐1 might play a role in germ cell survival in both species albeit it appears to have an opposite role in each one. genesis 1–18 2012. © 2012 Wiley Periodicals, Inc.     

The Arabidopsis APC4 subunit of the anaphase-promoting complex/cyclosome (APC/C) is critical for both female gametogenesis and embryogenesis

The anaphase‐promoting complex/cyclosome (APC/C) is an E3 ubiquitin ligase that is involved in regulating cell‐cycle progression. It has been widely studied in yeast and animal cells, but the function and regulation of the APC/C in plant cells are largely unknown. The Arabidopsis APC/C comprises at least 11 subunits, only a few of which have been studied in detail. APC4 is proposed to be a connector in the APC/C in yeast and animals. Here, we report the functional characterization of the Arabidopsis APC4 protein. We examined three heterozygous plant lines carrying apc4 alleles. These plants showed pleiotropic developmental defects in reproductive processes, including abnormal nuclear behavior in the developing embryo sac and aberrant cell division in embryos; these phenotypes differ from those reported for mutants of other subunits. Some ovules and embryos of apc4/+ plants also accumulated cyclin B protein, a known substrate of APC/C, suggesting a compromised function of APC/C. Arabidopsis APC4 was expressed in meristematic cells of seedlings, ovules in pistils and embryos in siliques, and was mainly localized in the nucleus. Additionally, the distribution of auxin was distorted in some embryos of apc4/+ plants. Our results indicate that Arabidopsis APC4 plays critical roles in female gametogenesis and embryogenesis, possibly as a connector in APC/C, and that regulation of auxin distribution may be involved in these processes.     

Non-proteolytic ubiquitylation counteracts the APC/C-inhibitory function of XErp1

Mature Xenopus oocytes are arrested in meiosis by the activity of XErp1/Emi2, an inhibitor of the ubiquitin-ligase anaphase-promoting complex/cyclosome (APC/C). On fertilization, XErp1 is degraded, resulting in APC/C activation and the consequent degradation of cell-cycle regulators and exit from meiosis. In this study, we show that a modest increase in the activity of the ubiquitin-conjugating enzyme UbcX overrides the meiotic arrest in an APC/C-dependent reaction. Intriguingly, XErp1 remains stable in these conditions. We found that UbcX causes the ubiquitylation of XErp1, followed by its dissociation from the APC/C. Our data support the idea that ubiquitylation regulates the APC/C-inhibitory activity of XErp1.     

The Caenorhabditis elegans spe‐49 gene is required for fertilization and encodes a sperm‐specific transmembrane protein homologous to SPE‐42

Fertilization, the fusion of sperm and oocyte to form a zygote, is the first and arguably the most important cell–cell interaction event in an organism’s life. Forward and reverse genetic approaches in the nematode Caenorhabditis elegans have identified many genes that are required for gametogenesis and fertilization and thus are beginning to elucidate the molecular pathways that underlie these processes. We identified an allele of the spe‐49 gene in a second filial generation (F₂) mutagenesis screen for spermatogenesis‐defective (spe) mutants. Mutant worms for spe‐49 produce sperm that have normal morphology, activate to form ameboid spermatozoa, and can migrate to and maintain their position in the hermaphrodite reproductive tract but fail to fertilize oocytes. This phenotype puts spe‐49 in the spe‐9 class of late‐acting genes that function in sperm at the time of fertilization. We cloned the spe‐49 gene through a combination of deficiency mapping, transgenic rescue, and genomic sequencing. spe‐49 messenger RNA (mRNA) is enriched in male germ cells, and the complementary DNA (cDNA) encodes a predicted 772‐amino‐acid six‐pass transmembrane protein that is homologous to SPE‐42. Indeed, SPE‐49 and SPE‐42 have identical predicted membrane topology and domain structure, including a large extracellular domain with six conserved cysteine residues, a DC‐STAMP domain, and a C‐terminal cytoplasmic domain containing a C4–C4 RING finger motif. The presence of two SPE‐42 homologs in animal genomes from worms to humans suggests that these proteins are highly conserved components of the molecular apparatus required for the sperm–oocyte recognition, binding, and fusion.     

Maturation promoting factor destabilization facilitates postovulatory aging‐mediated abortive spontaneous egg activation in rat

The present study was designed to investigate whether destabilization of maturation promoting factor (MPF) leads to postovulatory aging‐mediated abortive spontaneous egg activation (SEA). If so, we wished to determine whether changes in Wee‐1 as well as Emi2 levels are associated with MPF destabilization during postovulatory aging‐mediated abortive SEA in rats eggs aged in vivo. For this purpose, sexually immature female rats were given a single injection (20 IU IM) of pregnant mare serum gonadotropin for 48 h followed by single injection of human chorionic gonadotropin (20 IU). Ovulated eggs were collected after 14, 17, 19 and 21 h post‐hCG surge to induce postovulatory aging in vivo. The morphological changes, Wee1, phosphorylation status of cyclin dependent kinase 1(Cdk1), early mitotic inhibitor 2 (Emi2), anaphase promoting complex/cyclosome (APC/C), cyclin B1, mitotic arrest deficient protein (MAD2) levels and Cdk1 activity were analyzed. The increased Wee 1 level triggered phosphorylation of Thr‐14/Tyr‐15 and dephosphorylation of Thr‐161 residues of Cdk1. The decrease of Emi2 level was associated with increased APC/C level and decreased cyclin B1 level. Changes in phosphorylation status of Cdk1 and reduced cyclin B1 level resulted in destabilization of MPF. The destabilized MPF finally led to postovulatory aging‐mediated abortive SEA in rat eggs. It was concluded that the increase of Wee 1 but decrease of Emi2 level triggers MPF destabilization and thereby postovulatory aging‐mediated abortive SEA in rat eggs.     

2‐D DIGE analysis of Senegalese sole (Solea senegalensis) testis proteome in wild‐caught and hormone‐treated F1 fish

In the farmed flatfish Senegalese sole, F1 males reared in captivity often show lower sperm production and fertilization capacity than wild‐caught males. To gain insights into the molecular mechanisms that may be altered in the F1 testis, we used 2‐D DIGE to compare the protein profiling of the testis of wild‐caught males at the spermiation stage with that of F1 males showing different stages of germ cell development after hormone treatment in vivo. The abundance of 58 out of 1014 protein spots was found to differ significantly between the groups. De novo identification of these proteins by MS/MS revealed that proteins implicated in oxidoreductase activity, protein catabolism, formation of the zona pellucida receptor, cytoskeleton organization, and lipid binding and metabolism, were regulated in the F1 testes as germ cell development progressed. However, distinct isoforms or PTMs of some of these proteins, as well as of proteins involved in iron and glucose metabolism and ATP production, were expressed at lower levels in the testes of F1 males than in wild fish regardless of the hormone treatment. These results contribute to identifying proteins associated with spermatogenesis not previously described in teleosts, and suggest potential mechanisms that may be involved in the poor reproductive performance of Senegalese sole F1 males.     

Normal fertility in male mice with deletion of β‐catenin gene in germ cells

As a dual function protein, β‐catenin affects both cell adhesion and mediates canonical Wnt/β‐catenin cell signaling. β‐Catenin is prominently expressed in somatic Sertoli cells in the testis and postmeiotic germ cells, suggesting an additional role in spermatogenesis. It was reported previously that Cre/loxP‐mediated conditional inactivation of the β‐catenin gene (Ctnnb1) in male gonads using a protamine promoter‐driven Cre transgene (Prm‐cre) resulted in partial infertility, reduced sperm count, and abnormal spermatogenesis. In this report, we demonstrated that the conditional deletion of Ctnnb1 using a germ cell specific Cre transgene (Stra8‐icre) had no effect on male fertility. We have shown that the Stra8‐icre transgene was highly efficient in generating deletion in early pre‐meiotic and post‐meiotic cells. No differences in anatomical or histological presentation were found in the mutant testis, the production of viable sperm was similar, and no abnormalities in DNA sperm content were detected. We concluded that β‐catenin is fully dispensable in germ cells for spermatogenesis. The conflicting results from the earlier study may have been due to off‐target expression of Prm‐cre in testicular somatic cells. In future studies, the analysis of conditional mutants using several Cre‐transgenes should be encouraged to reduce potential errors. genesis 52:328–332, 2014. © 2014 Wiley Periodicals, Inc.     

Altered modulation of lamin A/C‐HDAC2 interaction and p21 expression during oxidative stress response in HGPS

Defects in stress response are main determinants of cellular senescence and organism aging. In fibroblasts from patients affected by Hutchinson–Gilford progeria, a severe LMNA‐linked syndrome associated with bone resorption, cardiovascular disorders, and premature aging, we found altered modulation of CDKN1A, encoding p21, upon oxidative stress induction, and accumulation of senescence markers during stress recovery. In this context, we unraveled a dynamic interaction of lamin A/C with HDAC2, an histone deacetylase that regulates CDKN1A expression. In control skin fibroblasts, lamin A/C is part of a protein complex including HDAC2 and its histone substrates; protein interaction is reduced at the onset of DNA damage response and recovered after completion of DNA repair. This interplay parallels modulation of p21 expression and global histone acetylation, and it is disrupted by LMNAmutations leading to progeroid phenotypes. In fact, HGPS cells show impaired lamin A/C‐HDAC2 interplay and accumulation of p21 upon stress recovery. Collectively, these results link altered physical interaction between lamin A/C and HDAC2 to cellular and organism aging. The lamin A/C‐HDAC2 complex may be a novel therapeutic target to slow down progression of progeria symptoms.     

Diminished reproductive potential of male mice in response to selenium‐induced oxidative stress: Involvement of HSP70, HSP70‐2, and MSJ‐1

The oxidative stress imposed by nutritional variations in selenium (Se) has plausible role in reproductive toxicology and affects the reproductive potential. Also, the expression of heat shock proteins (HSPs) is a highly regulated event throughout the process of spermatogenesis and is modulated by stressful stimuli. This prompted us to investigate the possibility that Se‐induced oxidative stress may affect the fertility status by altering the expressions of the constitutive and inducible HSP70 proteins, having crucial role in spermatogenesis. Different Se status‐deficient, adequate, and excess, male Balb/c mice were created by feeding yeast‐based Se‐deficient diet (group I) and deficient diet supplemented with Se as sodium selenite at 0.2 and 1 ppm Se (group II and III) for a period of 8 weeks. After completion of the diet‐feeding schedule, a significant decrease in the Se and glutathione peroxidase (GSH‐Px) levels was observed in the Se‐deficient group (I), whereas Se‐excess group (III) demonstrated an increase. Increased levels of reactive oxygen species, malondialdehyde, and alterations in the redox status in both groups I and III indicated oxidative‐stressed conditions. There was an overall reduced fertility status in mice supplemented with Se‐deficient and Se‐excess diet. The mRNA and protein expression of HSP70 was found to be elevated in these two groups, whereas the expression patterns of HSP70‐2 and MSJ‐1 demonstrated a reverse trend. In vitro CDC2 kinase assay showed reduced kinase activity in group I and group III. These findings suggest that Se‐induced oxidative stress by differentially regulating various HSP70s can affect its downstream factors having crucially important role in differentiation of germ cells and completion of spermatogenesis. Therefore, it can provide an insight into the mechanism(s) by which the oxidative stress–induced reproductive toxicity can lead to increased apoptosis/growth arrest and infertility. This will thus add new dimensions to the molecular mechanism underlying the human male infertility and open new vistas in the development of various chemo‐preventive methods. © 2009 Wiley Periodicals, Inc. J Biochem Mol Toxicol 23:125–136, 2009; Published online in Wiley InterScience ( www.interscience.wiley.com ). DOI 10.1002/jbt.20276     

Modulation of caveolae by insulin/IGF‐1 signaling regulates aging of Caenorhabditis elegans

Reducing insulin/IGF‐1 signaling (IIS) extends lifespan, promotes protein homeostasis (proteostasis), and elevates stress resistance of worms, flies, and mammals. How these functions are orchestrated across the organism is only partially understood. Here, we report that in the nematode Caenorhabditis elegans, the IIS positively regulates the expression of caveolin‐1 (cav‐1), a gene which is primarily expressed in neurons of the adult worm and underlies the formation of caveolae, a subtype of lipid microdomains that serve as platforms for signaling complexes. Accordingly, IIS reduction lowers cav‐1 expression and lessens the quantity of neuronal caveolae. Reduced cav‐1 expression extends lifespan and mitigates toxic protein aggregation by modulating the expression of aging‐regulating and signaling‐promoting genes. Our findings define caveolae as aging‐governing signaling centers and underscore the potential for cav‐1 as a novel therapeutic target for the promotion of healthy aging.     

Functional analysis of the anaphase promoting complex activator CCS52A highlights the crucial role of endo‐reduplication for fruit growth in tomato

Tomato fruit growth is characterized by the occurrence of numerous rounds of DNA endo‐reduplication in connection with cell expansion and final fruit size determination. Endo‐reduplication is an impairment of mitosis that originates from the selective degradation of M phase‐specific cyclins via the ubiquitin‐mediated proteolytic pathway, requiring the E3 ubiquitin ligase anaphase promoting complex/cyclosome (APC/C). Two types of APC/C activators, namely CCS52 and CDC20 proteins, exist in plants. We report here the molecular characterization of such APC/C activators during fruit development, and provide an in planta functional analysis of SlCCS52A, a gene that is specifically associated with endo‐reduplication in tomato. Altering SlCCS52A expression in either a negative or positive manner had an impact on the extent of endo‐reduplication in fruit, and fruit size was reduced in both cases. In SlCCS52A over‐expressing fruits, endo‐reduplication was initially delayed, accounting for the altered final fruit size, but resumed and was even enhanced at 15 days post anthesis (dpa), leading to fruit growth recovery. This induction of growth mediated by endo‐reduplication had a considerable impact on nitrogen metabolism in developing fruits. Our data contribute to unravelling of the physiological role of endo‐reduplication in growth induction during tomato fruit development.     

Mating experience weakens starvation tolerance in the seed bug Togo hemipterus (Heteroptera: Lygaeidae)

Organisms are exposed to various stresses caused by environmental fluctuations. One of the most common stresses is the shortage of food. Individuals of many species must survive periods of starvation. There appears to be a trade‐off between reproduction and survival. When residual reproductive value declines for an individual, life‐history theory predicts an increase in current reproductive investment. Current reproductive investment differs between virgin and mated individuals. It is likely that mating experience influences starvation tolerance. However, few studies have investigated sex differences in the effect of mating experience on starvation tolerance or clarified the causes of reductions in starvation tolerance in both sexes. In the present study, these questions are investigated using the seed bug Togo hemipterus (Heteroptera: Lygaeidae).The results of the present study demonstrate that mating is costly for both sexes. Mated males show very short survival times and a daily reduction in weight, and daily energy expenditures are significantly greater in mated males than in virgin males. It is possible that starvation increases the mating effort of males, such as behavioural activities and the amount of time spent searching for females. A trade‐off between survival duration and lifetime fecundity is found in virgin females. However, there is no trade‐off in mated females, which have very short survival times. Whether male seminal substances contribute to the short survival times of mated females is considered. This is the first report demonstrating the influence of sex and mating experience on starvation tolerance. Sex‐specific causes for reductions in starvation tolerance are discussed.