Identification of reactive oxygen species that induce spoptosis, a novel and distinctive mode of regulated cell death.

Using some solutions activated by irradiation with non-thermal atmospheric pressure plasma (NTAPP), we had discovered that a new and distinctive mode of cell death, named spoptosis, exists in cells, the induction of which involves the action of reactive oxygen species (ROS). However, it was unknown what types of ROS and how they trigger the cell death. When cells were treated with a higher dose of Ascorbic acid (AA) generating O2- and H2O2 or Antimycin A (AM) generating O2-, cell death occurred along with cellular shrinkage, Pdcd4 disappearance, and vesicle formation. Only in cells treated with AA, genomic DNA was digested irregularly and membrane permeability increased aberrantly. On the other hand, cells treated with a higher dose of H2O2 displayed cell death and cellular shrinkage but not the other events, and those treated with a lower dose of H2O2 displayed cell death but not the other events. Strikingly, when cells underwent double treatment with AM and H2O2, the events, which had not been observed by their single treatment, became compensated. All the events were suppressed with an antioxidant, confirming that they were mediated by ROS. Thus, the mode of cell death induced by AA or combination of AM and H2O2 was consistent with that of cell death by NTAPP-activated solutions. These results suggested that O2- and H2O2 collaboratively trigger spoptotic cell death with the associated events, and that AA and combination of AM and H2O2 are functionally alternative in place of NTAPP-activated solutions.

Differential data on the responsiveness of multiple cell types to cell death induced by non-thermal atmospheric pressure plasma-activated solutions.

A discovery that cells die of a novel and distinctive process, along with some characteristic events, such as cellular shrinkage and Programmed cell death 4 disappearance, has been done by using non-thermal atmospheric pressure plasma-activated solutions [1]. Data on the responsiveness of multiple cell types to the induction of cellular shrinkage and cell death and the loss of Programmed cell death 4 by exposure to the non-thermal atmospheric pressure plasma-activated solutions were collected. Human neuroblastoma SH-SY5Y cells, murine myoblast C2C12 cells, and murine embryonic fibroblasts were cultured for various periods in each of the non-thermal atmospheric pressure plasma-activated solutions and then examined by light field microscopic observation for their effects on cell morphology, by Trypan blue dye exclusion assay for those on cell death, and by Western blotting for those on Programmed cell death 4 disappearance. The data clarified some differences in the responsiveness to the induction of cellular shrinkage, cell death, and Pdcd4 disappearance by all the non-thermal atmospheric pressure plasma-activated solutions among the cells.

A novel and distinctive mode of cell death revealed by using non-thermal atmospheric pressure plasma: The involvements of reactive oxygen species and the translation inhibitor Pdcd4.

Cells death is indispensable for embryonic development, tissue homeostasis, and the elimination of cancer, virally infected, or degenerated cells in multicellular organisms. It occurs not only via existing modes but also via unidentified modes, whose elucidation requires. Exposure to non-thermal atmospheric pressure plasma (NTAPP) has been demonstrated to induce cell death, probably because of its ability to generate reactive oxygen species (ROS). However, the mode of this cell death and its underlying mechanism remained elusive. Here we show cell death occurring in a novel and distinctive mode different from apoptosis and necrosis/necroptosis through a mechanism that ROS mediate the loss of the translation inhibitor Programmed cell death 4 (Pdcd4) when cells are cultured in solutions activated by NTAPP irradiation. Thus, our study performed with NTAPP-activated solutions may provide insight into the existence of the atypical cell death in cells and some features of its distinguishing mode and underlying mechanism.

The Expression of the Cold Shock Protein RNA Binding Motif Protein 3 is Transcriptionally Responsive to Organ Temperature in Mice.

BACKGROUND: Mild hypothermia, i.e. maintenance of organ temperature by up to 8°C lower than body temperature, is a critical strategy for exerting some functions of the cells and organs normally, and is an useful therapy for recovering properly from some diseases, including myocardial infarction, cardiac arrest, brain injury, and ischemic stroke. Nevertheless, there were no focusses so far on organ temperature and potential responses of gene expression to organ temperature in organs of homeothermic animals that survive under normal conditions. OBJECTIVE: The present study aimed to assess organ temperature in homeothermic animals and evaluate the effect of their organ temperature on the expression of the cold shock protein RNA binding motif protein 3 (RBM3), and to gain insights into the organ temperature-mediated regulation of RBM3 gene transcription via Nuclear factor ß-light-chain-enhancer of activated B cells (NF-κB) p65, which had been identified as a transcription factor that is activated by undergoing the Ser276 phosphorylation and promotes the RBM3 gene expression during mild hypothermia. METHODS: We measured the temperature of several organs, where RBM3 expression was examined, in female and male mice. Next, in male mice, we tested NF-κB p65 expression and its Ser276 phosphorylation in organs that have their lower temperature than body temperature and compared them with those in organs that have their temperature near body temperature. RESULTS: Organ temperature was around 32°C in the brain and reproductive organs, which is lower than the body temperature, and around 37°C in the heart, liver, and kidney, which is comparable to the body temperature. The expression of RBM3 was detected greatly in the brain and reproductive organs with their organ temperature of around 32°C, and poorly in the heart, liver, and kidney with their organ temperature of around 37°C. In accordance with the changes in the RBM3 expression, the NF-κB p65 Ser276 phosphorylation was detected more greatly in the testis and brain with their organ temperature of around 32°C, than in the heart, liver, and kidney with their organ temperature of around 37°C, although the NF-κB p65 expression was unchanged among all the organs tested. DISCUSSION: Our data suggested that organ temperature lower than body temperature causes the expression of RBM3 in the brain and reproductive organs of mice, and that lower organ temperature causes the NF-κB p65 activation through the Ser276 phosphorylation, resulting in an increase in the RBM3 gene transcription, in the brain and reproductive organs of mice. CONCLUSION: The study may present the possibility that organ temperature-induced alterations in gene expression are organ specific in homeotherms and the possibility that organ temperature-induced alterations in gene expression are transcriptionally regulated in some organs of homeotherms.

Novel erythrocyte clumps revealed by an orphan gene Newtic1 in circulating blood and regenerating limbs of the adult newt.

The newt, a group of urodele amphibians, has outstanding ability to repeatedly regenerate various body parts, even in the terrestrial life-stage. In this animal, when the limb is amputated, a cell mass named the blastema appears on the stump and eventually gives rise to a new functional limb. Erythrocytes (red blood cells) in most non-mammalian vertebrates, including the newt, preserve their nucleus throughout their life-span, although physiological roles of such nucleated erythrocytes, other than oxygen delivery, are not known. Here we report novel behavior of erythrocytes in the newt. We identified an orphan gene Newtic1, whose transcripts significantly increased in the blastema. Newtic1 was expressed in a subset of erythrocytes that formed a novel clump (EryC). EryC formed a complex with monocytes and was circulating throughout the body. When the limb was amputated, EryCs were newly generated in the stump and accumulated into a distal portion of the growing blastema. Our data suggested that the newt erythrocytes carried multiple secretory molecules including growth factors and matrix metalloproteases, and were capable of delivering these molecules into the blastema as a form of EryCs. This study provides insight into regulations and roles of nucleated erythrocytes, that are independent of oxygen delivery.

Cytoplasmic localization of programmed cell death 4 contributes to its anti-apoptotic function.

We have demonstrated that the loss of programmed cell death 4 (Pdcd4), a translation inhibitor, induces apoptosis; however, when, where, and how Pdcd4 decreases in response to apoptotic stimuli and, conversely, exerts the anti-apoptotic function within normal cells are incompletely understood. Endogenous Pdcd4 was present in both the cytoplasm and nucleus of cells that survived. In cells that had committed to die by apoptotic stimuli, cytoplasmic Pdcd4 was lost more slowly than was nuclear Pdcd4; eventually, Pdcd4 remaining in the cytoplasm was lost and then apoptotic events were induced. Treatment with leptomycin B led to blocked nuclear export of Pdcd4 in cells exposed to apoptotic stimuli, assuming its translocation from the nucleus to the cytoplasm in the early phase of apoptotic processes. In cells overexpressing Pdcd4, the protein localized exclusively cytoplasmic. Overexpression of Pdcd4 resulted in reduced incidence of apoptosis in cells exposed to apoptotic stimuli compared to control cells. In addition, the expression of Procaspase-3, which is translated from the mRNA targeted by Pdcd4, was suppressed in cells overexpressing Pdcd4. Thus, the localization of Pdcd4 to the cytoplasm may be responsible for the suppression of the target mRNA translation and apoptosis.

RBM3 expression is upregulated by NF-κB p65 activity, protecting cells from apoptosis, during mild hypothermia.

The RNA-binding protein RBM3, a cold shock protein whose expression is elevated under hypothermic conditions, plays an important role in cell survival; however, little is known about the mechanism underlying the mild hypothermia-mediated regulation of RBM3 expression and apoptosis. Here we show that the transcription factor NF-κB p65 is phosphorylated at Ser276 and activates RBM3 gene transcription via binding to a particular element within the promoter region in response to induced hypothermia, elevating the protein expression, and suppressing apoptosis. Treatment with caffeic acid phenethyl ester (CAPE), a potent and specific inhibitor that suppresses the translocation of NF-κB p65 from the cytoplasm to the nucleus, resulted in decreased levels of RBM3 mRNA and protein and increased incidence of apoptosis despite cells were cultured under hypothermic conditions. Overexpression of RBM3 abolished the induction of apoptosis in cells treated with CAPE, indicating that NF-κB p65-upregulated RBM3 expression is necessary for the suppression of apoptosis. In addition, experiments with cells overexpressing RBM3 supported the finding demonstrating that the mild hypothermia-mediated higher expression of RBM3 suppressed the induction of apoptosis. Conversely, experiments with cells deficient in RBM3 supported the finding demonstrating that the CAPE-mediated loss of RBM3 induced apoptosis. These results suggest that NF-κB p65 is a critical mediator of mild hypothermia, to which cells are exposed as an extracellular environment, and a central inducer of RBM3 expression, which is responsible for preventing cells from apoptosis. Moreover, CAPE may have a potential for the application to a therapeutic agent for the treatment of cancers.

Safety and pharmacokinetics of bapineuzumab in a single ascending-dose study in Japanese patients with mild to moderate Alzheimer's disease.

AIM: To evaluate the safety, tolerability and pharmacokinetic profile of bapineuzumab after a single intravenous injection in Japanese patients with mild to moderate Alzheimer's disease. METHODS: Participants received either a placebo (n = 8), or bapineuzumab 0.15 (n = 6), 0.5 (n = 6), 1.0 (n = 6) or 2.0 (n = 6) mg/kg. Serum concentrations of bapineuzumab, antibapineuzumab antibody and total plasma ß-amyloidx-40 were assayed. RESULTS: Adverse events for bapineuzumab and placebo groups were 71% and 88%, respectively. Treatment-emergent adverse events (cataract, injection site hemorrhage, nasopharyngitis, pneumonia and muscle twitching) reported for ≥2 participants were mild or moderate in severity and unrelated to bapineuzumab dose. No deaths, serious adverse events or withdrawals were reported. Mean peak concentration for bapineuzumab increased with dose, from 3.3 ± 0.9 µg/mL with the 0.15 mg/kg dose to 61.0 ± 32.8 µg/mL with 2.0 mg/kg. Mean bapineuzumab exposure (area under the curve from time 0 to last measurable concentration; µg·h/mL) increased in a linear manner with increasing dose (mean 1260 for 0.15 mg/kg, 4264 for 0.5 mg/kg, 7818 for 1.0 mg/kg, 15 313 for 2.0 mg/kg). Mean half-life ranged from 15 to 28 days, and clearance was similar across dose groups (range 0.12-0.17 mL/h/kg). CONCLUSIONS: Plasma ß-amyloidx-40 levels increased with increasing doses of bapineuzumab. Bapineuzumab was safe and well tolerated at all doses in Japanese patients with mild to moderate Alzheimer's disease. Geriatr Gerontol Int 2016; 16: 644-650.

Nociceptin and meiosis during spermatogenesis in postnatal testes.

Phosphorylated Rec8, a key component of cohesin, mediates the association and disassociation, "dynamics," of chromosomes occurring in synaptonemal complex formation, crossover recombination, and sister chromatid cohesion during meiosis in germ cells. Yet, the extrinsic factors triggering meiotic chromosome dynamics remained unclear. In postnatal testes, follicle-stimulating hormone (FSH) acts directly on somatic Sertoli cells to activate gene expression via an intracellular signaling pathway composed of cAMP, cAMP-dependent protein kinase (PKA), and cAMP-response element-binding protein (CREB), and promotes germ cell development and spermatogenesis indirectly. Yet, the paracrine factors mediating the FSH effects to germ cells remained elusive. We have shown that nociceptin, known as a neuropeptide, is upregulated by FSH signaling through cAMP/PKA/CREB pathway in Sertoli cells of postnatal murine testes. Chromatin immunoprecipitation from Sertoli cells demonstrated that CREB phosphorylated at Ser133 associates with prepronociceptin gene encoding nociceptin. Analyses with Sertoli cells and testes revealed that both prepronociceptin mRNA and the nociceptin peptide are induced after FSH signaling is activated. In addition, the nociceptin peptide is induced in testes after 9 days post partum following FSH surge. Thus, our findings may identify nociceptin as a novel paracrine mediator of the FSH effects in the regulation of spermatogenesis; however, very little has known about the functional role of nociceptin in spermatogenesis. We have shown that nociceptin induces Rec8 phosphorylation, triggering chromosome dynamics, during meiosis in spermatocytes of postnatal murine testes. The nociceptin receptor Oprl-1 is exclusively expressed in the plasma membrane of testicular germ cells, mostly spermatocytes. Treatment of testes with nociceptin resulted in a rapid phosphorylation of Rec8. Injection of nociceptin into mice stimulated Rec8 phosphorylation and meiotic chromosome dynamics in testes, whereas injection of nocistatin, a specific inhibitor for nociceptin, abolished them. Therefore, our findings suggest that nociceptin is a novel extrinsic factor that plays a crucial role in the progress of meiosis during spermatogenesis.

The interaction of the ErbB4 intracellular domain p80 with α-enolase in the nuclei is associated with the inhibition of the neuregulin1-dependent cell proliferation.

We have shown that the receptor tyrosine kinase ErbB4 signals neuregulin1-stimulated proliferation of human cells. Some isoforms of ErbB4 are cleaved to release the soluble intracellular domain p80; however, the function of p80 in cell proliferation remained unclear. Here we propose the possibility for p80 as a negative feedback modulator of ErbB4-mediated cell proliferation. Cells exposed to lower doses of neuregulin1 displayed a stimulated proliferation and contained ErbB4 but barely p80. By contrast, cells exposed to its higher doses displayed a suppressed proliferation and contained p80 but barely ErbB4. Analyses with cells overexpressing the p80 wild type and mutants indicated that nuclear p80 inhibits cell proliferation independently of the tyrosine kinase activity. A screen for a novel protein that interacts with p80 identified α-enolase, which is reported as a transcriptional inhibitor for the proliferation-associated c-myc gene. The c-myc mRNA expression was induced by lower doses of neuregulin1 but was suppressed by its higher doses. Subcellular fractionation demonstrated the localization of not only p80 and α-enolase but also the decrease of the functional c-myc amount in the nuclei of cells exposed to higher doses of neuregulin1. These results suggested that p80, which is generated from ErbB4 and translocates to the nuclei, interacts with α-enolase and inhibits neuregulin1-dependent ErbB4-mediated cell proliferation by impairing the c-myc gene transcription.

Effects of culture media on the susceptibility of cells to apoptotic cell death.

Whether responses of cells to extracellular environments affect the induction of apoptotic cell death is poorly understood. The current study aimed to unravel the different effects of culture media employed in vitro as extracellular environments on the susceptibility of cells to apoptosis. We found that apoptosis is stimulated to the higher levels by culturing human HeLa cells in Opti-MEM with unknown components, a medium that is specifically used for transfections, than by culturing cells in Dulbecco's modified Eagle's medium, a medium that is generally used for maintenance of cells. We showed that apoptosis is suppressed partially by culturing cells in heat-treated Opti-MEM, implicating a heat-sensitive component(s) in stimulating the apoptotic response of cells. Thus, different extracellular environments may contribute to different responses of cells to apoptosis, and this should be considered to evaluate the incidences of apoptotic cell death and could be applied to develop an efficient treatment for curing diseases such as cancer.

Reconstruction of a seminiferous tubule-like structure in a 3 dimensional culture system of re-aggregated mouse neonatal testicular cells within a collagen matrix.

Male gonad development is initiated by the aggregation of pre-Sertoli cells (SCs), which surround germ cells to form cords. Several attempts to reconstruct testes from dissociated testicular cells have been made; however, only very limited morphogenesis beyond seminiferous cord formation has been achieved. Therefore, we aimed to reconstruct seminiferous tubules using a 3-dimensional (D) re-aggregate culture of testicular cells, which were dissociated from 6-dpp neonatal mice, inside a collagen matrix. We performed a short-term culture (for 3 days) and a long-term culture (up to 3 wks). The addition of KnockOut Serum Replacement (KSR) promoted (1) the enlargement of SC re-aggregates; (2) the attachment of peritubular myoid (PTM) cells around the SC re-aggregates; (3) the sorting of germ cells inside, and Leydig cells outside, seminiferous cord-like structures; (4) the alignment of SC polarity inside a seminiferous cord-like structure relative to the basement membrane; (5) the differentiation of SCs (the expression of the androgen receptor); (6) the formation of a blood-testis-barrier between the SCs; (7) SC elongation and lumen formation; and (8) the proliferation of SCs and spermatogonia, as well as the differentiation of spermatogonia into primary spermatocytes. Eventually, KSR promoted the formation of seminiferous tubule-like structures, which accompanied germ cell differentiation. However, these morphogenetic events did not occur in the absence of KSR. This in vitro system presents an excellent model with which to identify the possible factors that induce these events and to analyze the mechanisms that underlie cellular interactions during testicular morphogenesis and germ cell differentiation.

Nociceptin induces Rec8 phosphorylation and meiosis in postnatal murine testes.

Phosphorylated Rec8, a key component of cohesin, mediates the association and disassociation, "dynamics," of chromosomes occurring in synaptonemal complex formation, crossover recombination, and sister chromatid cohesion during meiosis. Yet, the extrinsic factors triggering meiotic chromosome dynamics remain elusive. We have recently found that nociceptin, known as a neuropeptide, is up-regulated by follicle-stimulating hormone in Sertoli cells in postnatal murine testes; however, very little is known about the functional role of nociceptin in spermatogenesis. Here, we show that nociceptin induces Rec8 phosphorylation, triggering chromosome dynamics, in spermatocytes during meiosis in postnatal murine testes. The nociceptin receptor Oprl-1 is exclusively expressed in the plasma membrane of testicular germ cells, mostly spermatocytes. Treatment of testes with nociceptin resulted in a rapid phosphorylation of Rec8. Injection of nociceptin into mice stimulated Rec8 phosphorylation and meiotic chromosome dynamics in testes, whereas injection of nocistatin, a specific inhibitor of nociceptin, abolished them. These findings suggest that nociceptin is a novel extrinsic factor that plays a crucial role in the progress of meiosis.

The RNA-binding protein xCIRP2 is involved in apoptotic tail regression during metamorphosis in Xenopus laevis tadpoles.

Frog metamorphosis induced by thyroid hormone (TH) involves not only cell proliferation and differentiation in reconstituted organs such as limbs, but also apoptotic cell death in degenerated organs such as tails. However, the molecular mechanisms directing the TH-dependent cell fate determination remain unclear. We have previously identified from newts an RNA-binding protein (nRBP) acting as the regulator governing survival and death in germ cells during spermatogenesis. To investigate the molecular events leading the tail resorption during metamorphosis, we analyzed the expression, the functional role in apoptosis, and the regulation of xCIRP2, a frog homolog of nRBP, in tails of Xenopus laevis tadpoles. At the prometamorphic stage, xCIRP2 protein is expressed in fibroblast, epidermal, nerve, and muscular cells and localized in their cytoplasm. When spontaneous metamorphosis progressed, the level of xCIRP2 mRNA remained unchanged but the amount of the protein decreased. In organ cultures of tails at the prometamorphic stage, xCIRP2 protein decreased before their lengths shortened during TH-dependent metamorphosis. The inhibition of calpain or proteasome attenuated the TH-induced decrease of xCIRP2 protein in tails, impairing their regression. These results suggest that xCIRP2 protein is downregulated through calpain- and proteasome-mediated proteolysis in response to TH at the onset of metamorphosis, inducing apoptosis in tails and thereby degenerating them.

Nociceptin is upregulated by FSH signaling in Sertoli cells in murine testes.

In postnatal testes, follicle-stimulating hormone (FSH) acts on somatic Sertoli cells to activate gene expression directly via an intracellular signaling pathway composed of cAMP, cAMP-dependent protein kinase (PKA), and cAMP-response element-binding protein (CREB), and promotes germ cell development indirectly. Yet, the paracrine factors mediating the FSH effects to germ cells remained elusive. Here we show that nociceptin, known as a neuropeptide, is upregulated by FSH through cAMP/PKA/CREB pathway in Sertoli cells in murine testes. Chromatin immunoprecipitation from Sertoli cells shows that CREB phosphorylated at Ser133 associates with prepronociceptin gene encoding nociceptin. Analyses with Sertoli cells and testes demonstrates that both prepronociceptin mRNA and the nociceptin peptide are induced after FSH signaling is activated. In addition, the nociceptin peptide is induced in testes after 9days post partum following FSH surge. Thus, our findings may identify nociceptin as a novel paracrine mediator of the FSH effects in the regulation of spermatogenesis.

Recurrent cholecystitis in an elderly mentally retarded patient with pica.

The case of a 64-year-old patient with pica and severe mental retardation who was admitted to our hospital for treatment of recurrent cholecystitis is reported. Abdominal ultrasound showed sludge in the gallbladder, but no stones. Abdominal CT revealed a foreign body in the duodenum resembling a suction cup of the type commonly used in kitchens and bathrooms. The object could not be removed because it was deeply embedded in the hypertrophic intestinal mucosa. A nasogastric tube was inserted for feeding, since the object impeded the passage of solid foods. The patient's fever and abdominal pain subsequently resolved, and laboratory data improved. The indwelling feeding tube prevented recurrence of cholecystitis. Since pica is common not only in patients with mental retardation but also in dementia patients, the present case may also relate to the treatment of acute abdominal conditions in dementia patients.

Neuregulins are essential for spermatogonial proliferation and meiotic initiation in neonatal mouse testis.

The transition from mitosis to meiosis is unique to germ cells. In murine embryonic ovaries and juvenile testes, retinoic acid (RA) induces meiosis via the stimulated by retinoic acid gene 8 (Stra8), but its molecular pathway requires elucidation. We present genetic evidence in vivo and in vitro that neuregulins (NRGs) are essential for the proliferation of spermatogonia and the initiation of meiosis. Tamoxifen (TAM) was injected into 14-day post-partum (dpp) Sertoli cell-specific conditional Nrg1(Ser-/-) mutant mice. TAM induced testis degeneration, suppressed BrdU incorporation into spermatogonia and pre-leptotene primary spermatocytes, and decreased and increased the number of STRA8-positive and TUNEL-positive cells, respectively. In testicular organ cultures from 5-6 dpp wild-type mice and cultures of their re-aggregated spermatogonia and Sertoli cells, FSH, RA [all-trans-retinoic acid (ATRA), AM580, 9-cis-RA] and NRG1 promoted spermatogonial proliferation and meiotic initiation. However, TAM treatment of testicular organ cultures from the Nrg1(Ser-/-) mutants suppressed spermatogonial proliferation and meiotic initiation that was promoted by FSH or AM580. In re-aggregated cultures of purified spermatogonia, NRG1, NRG3, ATRA and 9-cis-RA promoted their proliferation and meiotic initiation, but neither AM580 nor FSH did. In addition, FSH, RAs and NRG1 promoted Nrg1 and Nrg3 mRNA expression in Sertoli cells. These results indicate that in juvenile testes RA and FSH induced meiosis indirectly through Sertoli cells when NRG1 and NRG3 were upregulated, as NRG1 amplified itself and NRG3. The amplified NRG1 and NRG3 directly induced meiosis in spermatogonia. In addition, ATRA and 9-cis-RA activated spermatogonia directly and promoted their proliferation and eventually meiotic initiation.

The kinase DYRKIA regulates pre-mRNA splicing in spermatogonia and proliferation of spermatogonia and Sertoli cells by phosphorylating a spliceosomal component, SAP155, in postnatal murine testes.

SAP155 is an essential component of the spliceosome and its phosphorylation is required for splicing catalysis, but little is known concerning its function and regulation during spermatogenesis in postnatal murine testes. We report that inhibition of dual-specificity tyrosine-phosphorylation regulated kinase (DYRK) IA strongly suppressed the mitogen-stimulated SAP155 phosphorylation and constitutive splicing of IκB pre-mRNA as well as the proliferation of spermatogonial and Sertoli cells in cultures of the 6-day post partum testes and a spermatogonial cell line, but not in a Sertoli cell line. Our findings suggest that the active spliceosome, containing SAP155 phosphorylated by DYRKIA, performs pre-mRNA splicing in spermatogonia during testicular development.

An EF-hands protein, centrin-1, is an EGTA-sensitive SUMO-interacting protein in mouse testis.

A multifunctional calcium-binding protein, centrin-1, is specifically expressed in male germ cells, certain neurons and ciliated cells. We identified centrin-1 as a protein interacting with SUMO-2/3 using yeast two-hybrid screening of a mouse testicular cDNA library. In bead halo assays, the interaction between centrin-1 and SUMO-2/3 was reduced in the presence of EGTA and facilitated by the addition of CaCl2. immunostaining of seminiferous tubules in 35-day-old mouse testes revealed that cells in the layer containing spermatogonia showed colocalization of SUMO-2/3 with centrin-1 in cytoplasmic spots. Identification of centrin-1 as the EGTA-sensitive SUMO-2/3-interacting protein indicates the possible role of calcium in modulating the centrin-1-SUMO-2/3 interaction and suggests the importance of this interaction in mouse testis.

Phosphorylated SAP155, the spliceosomal component, is localized to chromatin in postnatal mouse testes.

SAP155 is an essential component of the spliceosome and its phosphorylation is required for splicing catalysis, but little is known concerning its expression and regulation during spermatogenesis in postnatal mouse testes. We report that SAP155 is ubiquitously expressed in nuclei of germ and Sertoli cells within the seminiferous tubules of 6- and 35-day postpartum (dpp) testes. Analyses by fractionation of testes revealed that (1) phosphorylated SAP155 was found in the fraction containing nuclear structures at 6 dpp in amounts much larger than that at other ages; (2) non-phosphorylated SAP155 was detected in the fraction containing nucleoplasm; and (3) phosphorylated SAP155 was preferentially associated with chromatin. Our findings suggest that the active spliceosome, containing phosphorylated SAP155, performs pre-mRNA splicing on chromatin concomitant with transcription during testicular development.