The interaction between importin-α and Nup153 promotes importin-α/β-mediated nuclear import

Nuclear transport is mediated by transport factors, including the importin β family members. The directionality of nuclear transport is governed by the asymmetrical distribution of the small GTPase Ran. Of note, importin α/β-mediated import of classical nuclear localization signal (cNLS)--containing cargo is more efficient than other Ran-dependent import pathways that do not require importin α. In this study, we characterized the role of importin α in nuclear transport by examining import efficiencies of cNLS-cargo/importin α/β complexes. We first depleted digitonin-permeabilized semi-intact cells of endogenous importin α and used the cells to show that the interaction between importin α and Nup153--a component of the nuclear pore complex (NPC)--is essential for efficient import of importin β-binding domain containing substrates, but not other cargoes that directly bind to importin β. Moreover, we found that the binding of importin α to Nup153 facilitates cNLS-mediated import, and demonstrated that importin α in import complexes and cargo-free importin α prebound to Nup153 promote efficient import of cNLS-containing proteins. This is the first in vitro study showing that in conjunction with Nup153, importin α contributes to directionally biased exit of cNLS-containing cargo to the nuclear side of NPCs.     

Regulated binding of importin-α to protein kinase Cδ in response to apoptotic signals facilitates nuclear import

PKCδ translocates into the nucleus in response to apoptotic agents and functions as a potent cell death signal. Cytoplasmic retention of PKCδ and its transport into the nucleus are essential for cell homeostasis, but how these processes are regulated is poorly understood. We show that PKCδ resides in the cytoplasm in a conformation that precludes binding of importin-α. A structural model of PKCδ in the inactive state suggests that the nuclear localization sequence (NLS) is prevented from binding to importin-α through intramolecular contacts between the C2 and catalytic domains. We have previously shown that PKCδ is phosphorylated on specific tyrosine residues in response to apoptotic agents. Here, we show that phosphorylation of PKCδ at Tyr-64 and Tyr-155 results in a conformational change that allows exposure of the NLS and binding of importin-α. In addition, Hsp90 binds to PKCδ with similar kinetics as importin-α and is required for the interaction of importin-α with the NLS. Finally, we elucidate a role for a conserved PPxxP motif, which overlaps the NLS, in nuclear exclusion of PKCδ. Mutagenesis of the conserved prolines to alanines enhanced importin-α binding to PKCδ and induced its nuclear import in resting cells. Thus, the PPxxP motif is important for maintaining a conformation that facilitates cytosplasmic retention of PKCδ. Taken together, this study establishes a novel mechanism that retains PKCδ in the cytoplasm of resting cells and regulates its nuclear import in response to apoptotic stimuli.     

α-Ketoglutarate abrogates the nuclear localization of HIF-1α in aluminum-exposed hepatocytes

Aluminum (Al), a known environmental pollutant, has been linked to numerous pathologies such as Alzheimer's disease and anaemia. In this study, we show that α-ketoglutarate (KG) mitigates the Al-mediated nuclear accumulation of hypoxia inducible factor-1α (HIF-1α) in cultured human hepatocytes (HepG2). The nuclear localization of HIF-1α appeared to be triggered by the Al-induced perturbation of prolyl hydroxylase 2 (PHD2). This enzyme was markedly diminished in the Al-challenged hepatocytes. The fate of PHD2 and HIF-1α was intricately linked to the mitochondrial dysfunction observed during Al stress. BN-PAGE, immunoblot, and HPLC revealed that the loss of α-ketoglutarate dehydrogenase (KGDH) and succinate dehydrogenase (SDH) activities were coupled to the accumulation of succinate. However, the treatment of the Al-stressed cells with KG recovered the activity and expression of KGDH, SDH, and PHD2 with a concomitant decrease in the levels of HIF-1α in the nucleus. Taken together, these data indicate that the homeostasis of KG plays a pivotal role in aerobic and anaerobic respiration.     

The distribution of the histone H1° in different brain cell types

H1^o levels were examined in two populations of nuclei from calf cerebral cortex which have chromatin of different repeat lengths. More H1^o was found in the nuclei with the shorter repeat length chromatin. These nuclei are also believed to be the more active in RNA synthesis of the two types. Thus H1^o contrasts with the avian erythrocyte-specific histone H5 in that the latter is associated with both increased repeat length and suppression of RNA synthesis. Since the central globular domains of H1^o and H5 are highly homologous, it is suggested that the non-homologous, extended ‘tails’ of H1^o and H5 are crucial to the function of these molecules.     

Expression and localization of P1 promoter-driven hepatocyte nuclear factor-4α (HNF4α) isoforms in human and rats

BACKGROUND: Hepatocyte nuclear factor-4alpha (HNF4alpha; NR2A1) is an orphan member of the nuclear receptor superfamily involved in various processes that could influence endoderm development, glucose and lipid metabolism. A loss-of-function mutation in human HNF4alpha causes one form of diabetes mellitus called maturity-onset diabetes of the young type 1 (MODY1) which is characterized in part by a diminished insulin secretory response to glucose. The expression of HNF4alpha in a variety of tissues has been examined predominantly at the mRNA level, and there is little information regarding the cellular localization of the endogenous HNF4alpha protein, due, in part, to the limited availability of human HNF4alpha-specific antibodies. RESULTS: Monoclonal antibodies have been produced using baculovirus particles displaying gp64-HNF4alpha fusion proteins as the immunizing agent. The mouse anti-human HNF4alpha monoclonal antibody (K9218) generated against human HNF4alpha1/alpha2/alpha3 amino acids 3-49 was shown to recognize not only the transfected and expressed P1 promoter-driven HNF4alpha proteins, but also endogenous proteins. Western blot analysis with whole cell extracts from Hep G2, Huh7 and Caco-2 showed the expression of HNF4alpha protein, but HEK293 showed no expression of HNF4alpha protein. Nuclear-specific localization of the HNF4alpha protein was observed in the hepatocytes of liver cells, proximal tubular epithelial cells of kidney, and mucosal epithelial cells of small intestine and colon, but no HNF4alpha protein was detected in the stomach, pancreas, glomerulus, and distal and collecting tubular epithelial cells of kidney. The same tissue distribution of HNF4alpha protein was observed in humans and rats. Electron microscopic immunohistochemistry showed a chromatin-like localization of HNF4alpha in the liver and kidney. As in the immunohistochemical investigation using K9218, HNF4alpha mRNA was found to be localized primarily to liver, kidney, small intestine and colon by RT-PCR and GeneChip analysis. CONCLUSION: These results suggest that this method has the potential to produce valuable antibodies without the need for a protein purification step. Immunohistochemical studies indicate the tissue and subcellular specific localization of HNF4alpha and demonstrate the utility of K9218 for the detection of P1 promoter-driven HNF4alpha isoforms in humans and in several other mammalian species.     

Cellular localization of estrogen receptor-alpha (ERα) and -beta (ERβ) mRNA in the boar testis

Boar testes synthesize high amounts of estrogens which are known to stimulate several male sexual functions in a variety of extragonadal target tissues. Possible effects within the testis depend on the existence of the estrogen receptor subtypes α and β (ERα, ERβ). The precise cellular localization of these subtypes within the testis was, so far, based mainly on protein expression studies using different antibodies in several species including boars shows contradictory results. Therefore, we investigated the ERα and ERβ gene expression using RT-PCR of testis homogenates and RT-PCR after UV-single cell microdissection combined with in-situ hybridization of four fertile boars with an average age of 32 weeks. Both ERα and ERβ mRNA were found in testis homogenates. Using in-situ hybridization and UV-single cell microdissection ERα mRNA was present in type A and type B spermatogonia up to mid-pachytene primary spermatocytes in stage V–VIII and stage I of the seminiferous epithelial cycle, but not in other cells. ERβ mRNA was found only in Sertoli cells. Interstitial Leydig cells revealed neither ERα nor ERβ mRNA. The data suggest a direct impact of estrogen in the boar on Sertoli cell function via ERβ and germ cell formation via ERα.     

Characterization of Nuclear Localization Signals (NLSs) and Function of NLSs and Phosphorylation of Serine Residues in Subcellular and Subnuclear Localization of Transformer-2β (Tra2β)

The serine/arginine-rich (SR) proteins are one type of major actors in regulation of pre-mRNA splicing. Their functions are closely related to the intracellular spatial organization. The RS domain and phosphorylation status of SR proteins are two critical factors in determining the subcellular distribution. Mammalian Transformer-2β (Tra2β) protein, a member of SR proteins, is known to play multiple important roles in development and diseases. In the present study, we characterized the subcellular and subnuclear localization of Tra2β protein and its related mechanisms. The results demonstrated that in the brain the nuclear and cytoplasmic localization of Tra2β were correlated with its phosphorylation status. Using deletional mutation analysis, we showed that the nuclear localization of Tra2β was determined by multiple nuclear localization signals (NLSs) in the RS domains. The point-mutation analysis disclosed that phosphorylation of serine residues in the NLSs inhibited the function of NLS in directing Tra2β to the nucleus. In addition, we identified at least two nuclear speckle localization signals within the RS1 domain, but not in the RS2 domain. The nuclear speckle localization signals determined the localization of RS1 domain-contained proteins to the nuclear speckle. The function of the signals did not depend on the presence of serine residues. The results provide new insight into the mechanisms by which the subcellular and subnuclear localization of Tra2β proteins are regulated.     

“Importin” signaling roles for import proteins: The function of Drosophila importin-7 (DIM-7) in muscle-tendon signaling

The formation of a mature myotendinous junction (MTJ) between a muscle and its site of attachment is a highly regulated process that involves myofiber migration, cell-cell signaling, and culminates with the stable adhesion between the adjacent muscle-tendon cells. Improper establishment or maintenance of muscle-tendon attachment sites results in a decrease in force generation during muscle contraction and progressive muscular dystrophies in vertebrate models. Many studies have demonstrated the important role of the integrins and integrin-associated proteins in the formation and maintenance of the MTJ. We recently demonstrated that moleskin (msk), the gene that encodes for Drosophila importin-7 (DIM-7), is required for the proper formation of muscle-tendon adhesion sites in the developing embryo. Further studies demonstrated an enrichment of DIM-7 to the ends of muscles where the muscles attach to their target tendon cells. Genetic analysis supports a model whereby msk is required in the muscle and signals via the secreted epidermal growth factor receptor (Egfr) ligand Vein to regulate tendon cell maturation. These data demonstrate a novel role for the canonical nuclear import protein DIM-7 in establishment of the MTJ.     

Immunocytochemical localization of transforming growth factor α, epidermal growth factor and epidermal growth factor receptor in the cat endometrium and placenta

This study was undertaken to determine the immunocytochemical localization of transforming growth factor α, epidermal growth factor and epidermal growth factor receptor in the endometrium of ovariectomized cats treated with oestradiol-17β and/or progesterone and in the endometrium and placenta of pregnant cats. Specific immunostaining was observed for all three antibodies. Moderate immunostaining for transforming growth factor α was observed in the epithelium of ovariectomized and oestrogen-treated cats. Dark epithelial staining was observed throughout pregnancy. The epithelial cells in progesterone-treated and peri-implantation animals contained dense deposits of reaction product, which were not reduced in intensity when immunoabsorbed antiserum was used. For epidermal growth factor, light--moderate epithelial staining was observed in ovariectomized and steroid-treated animals, and this increased in pregnant cats. Stromal staining for both the transforming and the epidermal growth factors was limited in steroid-treated animals and increased as pregnancy continued. Dark staining for epidermal growth factor receptor was observed in the epithelium and stroma in all the animals studied. The tips of surface epithelial convolutions in the non-implantation sites were always more darkly stained than in other regions of the surface epithelium. Staining in the placental trophoblast was limited to the syncytiotrophoblast for the two growth factors and the cytotrophoblast for the receptor during most of pregnancy and was absent late in pregnancy. The placental maternal giant cells contained specific immunoreactivity for all the immunogens from the middle of pregnancy to term. This study demonstrates that the two growth factors and the epidermal growth factor receptor are present in the endometrium and placenta of cats and suggests that these growth factors may play an autocrine/paracrine role during reproduction     

The localization and the isoenzymes of α- and β-Galactosidases in root tips

The localization was studied of α- and β-galactosidases in frozen sections of Ca-formol fixed root tips using simultaneous azocoupling reaction. In all species studied (Allium cepa,Cucurbita maxima, Lupinus albus, Pisum sativum, Vicia faba, Zea mays) positive results were obtained, the localization being ubiquitous (according to localization typology given here). InVicia faba andZea mays the isoenzymes of α- and β-galactosidases were revealed by means of acrylamide gel electrophoresis, using authors’ modification of Reisfeld method, in whole root tips, particular growth zones and separately in cortex and central cylinder. No differences were observed comparing stele and cortex. Whereas characteristic isoenzyme patterns were found in individual growth zones in maize, no differences appeared in broad bean. A comparison was made of thein situ localization and of the isoenzyme patterns of α- and β-galactosidases with α- and β-glucosidases. In the case of galactosidases, positive results appear with both α- and β-galactoside. The rising of pH to neutrality leads to considerable decrease in the activity of both galactosidases.     

The role of transforming growth factor (TGF)-β in modulating the immune response and fibrogenesis in the gut

Transforming growth factor (TGF)-β, a pleiotropic cytokine released by both immune and non-immune cells in the gut, exerts an important tolerogenic action by promoting regulatory T cell differentiation. TGF-β also enhances enterocyte migration and regulates extracellular matrix turnover, thereby playing a crucial role in tissue remodeling in the gut. In this review we describe the mechanisms by which abnormal TGF-β signaling impairs intestinal immune tolerance and tissue repair, thus predisposing to the onset of immune-mediated bowel disorders, such as inflammatory bowel disease and celiac disease. Additionally, we will discuss potential therapeutic strategies aiming at restoring physiologic TGF-β signaling in chronic intestinal diseases.