Production of recombinant human relaxin 3 in AtT20 cells

Relaxin 3 has been reported recently as a member of the insulin/IGF/relaxin family. To clarify the function of relaxin 3, we prepared recombinant human relaxin 3 using a mouse adrenocorticotrophic hormone (ACTH)-secreting cell line, AtT20. To detect a mature form of recombinant human relaxin 3, a competitive enzyme immunoassay (EIA) was developed using a monoclonal antibody (mAb; HK4-144-10), which was raised for the N-terminal peptide of human relaxin 3 A-chain. We detected immunoreactive (ir-) relaxin 3 in the culture supernatant of AtT20 cells stably transfected with human relaxin 3 cDNA. After treatment with 5 microM forskolin for 3 days, the concentration of the ir-relaxin 3 in the culture supernatant reached 12 nM. Ir-relaxin 3 was purified from the culture supernatant by a combination of various chromatographies. By analyses of N-terminal amino acid sequence and electrospray ionization mass spectrometry (ESI-MS), we confirmed that the purified material was a mature form of human relaxin 3. The recombinant human relaxin 3 thereby obtained increased intracellular cAMP production in THP-1 cells. Our results demonstrate that the expression of relaxin 3 cDNA in AtT20 cells is a useful tool to produce a bioactive and mature form of relaxin 3.     

AtT20 cells express modified forms of pp60c-src

We have compared the properties of pp60c-src from the mouse pituitary tumor cell line, AtT20, and from mouse fibroblasts. In vitro, pp60c-src phosphotransferase activity from AtT20 cells is 2- to 3-fold that of mouse NIH 3T3 fibroblast pp60c-src. In analyzing the reason for this elevation in specific activity, we found that pp60c-src from AtT20 cells differs structurally in at least three ways from pp60c-src in fibroblasts. First, AtT20 cells and primary rat anterior pituitary cells express low levels of the neuronal form of pp60c-src. Second, pp60c-src from AtT20 cells is phosphorylated at two additional N-terminal serine residues. Last, AtT20 pp60c-src is phosphorylated to a lower overall stoichiometry.     

Immunological and molecular characterization of the cAMP-dependent protein kinases in AtT20 cells

The properties of the cAMP-dependent protein kinases in AtT20 mouse pituitary tumor cells were characterized by a combination of immunological and biochemical techniques. Ninety per cent of the total cAMP-dependent protein kinase was in the 40,000 X g supernatant fraction. Protein kinases I and II were immunoprecipitated with specific antisera directed against their regulatory subunits. The immunoprecipitated kinases bound [3H]cAMP and were catalytically active when incubated with [gamma-32P]ATP-Mg and protamine or histone H2B. Immunoprecipitated protein kinases I and II bound [3H]cAMP with apparent Kb values of 1.5 and 15 nM, respectively. Regulatory subunit concentrations in AtT20 cells were measured by immunoprecipitation of [3H]cAMP-R complexes. R-I and R-II levels were 2.7 and 3.0 pmol of [3H]cAMP binding activity per mg of cytosolic protein, respectively, however, the ratio of protein kinase II to protein kinase I was 2.5 indicating the presence of a significant amount of free R-I. This was confirmed by DEAE-cellulose chromatography and the isolation of immunoreactive R-I devoid of protein kinase activity. A significant amount of R-I also coeluted with protein kinase II when AtT20 cell extracts were subjected to DEAE-cellulose chromatography. In quantitative immunoprecipitation experiments, 0.1 microliter of anti-brain R-II serum complexed up to 0.5 pmol of the [3H]cAMP-binding activity of protein kinase II prepared from bovine and rat brain, and AtT20 cells while 2 microliter of anti-brain R-II serum was required to precipitate an equal amount of protein kinase II from bovine skeletal muscle showing that the protein kinase II in AtT20 cells contained the neural-specific R-II subunit.     

Blocked coated pits in AtT20 cells result from endocytosis of budding retrovirions

AtT20 cells support the replication of two endogenous retroviruses, a murine leukemia virus and a mouse mammary tumor virus. On glass or plastic substrates, AtT20 cells grow in clumps. In this situation, retroviruses budding from the plasma membrane of one cell can, on rare occasions, be invested by coated pits in the plasma membranes of contiguous cells. These pits can invaginate to depths of 2,000-4,000 A within the cytoplasm drawing with them the viral buds which remain connected to their parental cells by tubular stalks, some of which are only 225 +/- 15 A in diameter. These stalks run down the straight necks of the pits from the buds to the parental cell surfaces. Several lines of evidence indicate that these unique structures are blocked such that neither endocytosis nor budding can go to completion, and that they persist for several hours. The properties of these blocked coated pits are relevant to models of both endocytosis and viral budding. First, they indicate that the invagination of a coated pit is not absolutely dependent on its pinching off to form a coated vesicle, but that uncoating appears to be dependent upon the generation of a free vesicle. Secondly, they suggest that the final stages in the maturation of a retroviral core into a mature nucleoid are dependent on the detachment of the bud from its parental cell and that the driving force of budding is the association of viral transmembrane proteins with viral core proteins. An explanation is offered to account for the formation of these structures despite the phenomenon of viral interference.     

Activin-A inhibits proopiomelanocortin messenger RNA accumulation and adrenocorticotropin secretion of AtT20 cells.

The complexity of corticotropic cell regulation by multiple central and peripheral factors is well recognized. The present study provides evidence for the participation of an additional factor in the regulation of this cell type of the anterior pituitary. Using the clonal AtT20 cell line as a model for corticotropes, homodimeric activin-A was observed to suppress basal ACTH secretion and POMC mRNA accumulation by approximately 50%. These effects required prolonged treatment with activin-A and were concentration dependent; the half-maximum concentration was in the range of 30-50 pM. Consistently, AtT20 cells were found to express specific high affinity binding sites for [125I]activin-A. The simultaneous addition of inhibin-A along with increasing concentrations of activin-A did not alter the characteristics of the inhibition of ACTH secretion by activin-A alone. This is in contrast to observations with gonadotropes of the anterior pituitary as well as a number of other cell types in which inhibin-A can partially antagonize the biological actions of activin-A. The results may suggest the participation of a subclass of activin receptors that mediate effects on ACTH secretion and POMC mRNA accumulation. As previously shown, the incubation of AtT20 cells with a synthetic glucocorticoid, dexamethasone, attenuated basal ACTH secretion and POMC expression in a concentration-dependent manner. The inhibition of both of these parameters by activin-A, however, was independent of glucocorticoids, because the two agents were additive in their actions. In addition to effects on secretion and mRNA levels, treatment with activin-A also inhibited the rate of proliferation of AtT20 cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization of the TGN exit routes in AtT20 cells using pancreatic amylase and serum albumin

The AtT20 pituitary cell is the one that was originally used to define the pathways taken by secretory proteins in mammalian cells. It possesses two secretory pathways, the constitutive for immediate secretion and the regulated for accumulation and release under hormonal stimulation. It is in the regulated pathway, most precisely in the immature granule of the regulated pathway, that proteolytic maturation takes place. A pathway that stems from the regulated one, namely the constitutive-like pathway releases proteins present in immature granules that are not destined for accumulation in mature granules. In AtT20 cells proopiomelanocortin the endogenous precursor of the accumulated adrenocorticotropic hormone, is predominantly secreted in a constitutive manner without proteolytic maturation. In order to better understand by which secretory pathway intact proopiomelanocortin is secreted by a cell line possessing a regulated secretory pathway, it was transfected with rat serum albumin (a marker of constitutive secretory proteins), and pancreatic amylase (a marker of regulated proteins). COS cells were also transfected in order to serve as control of release by the constitutive pathway. It was observed that both the basal and stimulated secretions of albumin and proopiomelanocortin from AtT20 cells are identical. In addition, secretagogue stimulation when POMC is in transit in the trans-Golgi network decreases its constitutive secretion by 50%. It was also observed using cell fractionation and 20 degrees C secretion blocks that albumin and proopiomelanocortin are present in the regulated pathway, presumably in the immature granules, and are secreted by the constitutive-like secretory pathway. These observations show that stimulation can increase sorting into the regulated pathway, and confirm the importance of the constitutive-like secretory pathway in the model AtT20 cell line.     

N-linked glycosylation affects the processing of mouse submaxillary gland prorenin in transfected AtT20 cells

Most mouse inbred strains carry two renin genes, Ren-1 and Ren-2, Renin-2, the product of the Ren-2 gene, is highly expressed in the submaxillary gland. It is a renin isoenzyme 96% similar to kidney renin-1, but unglycosylated. In order to investigate if glycosylation of prorenin affects its processing and/or secretion we have introduced two potential N-linked glycosylation sites into preprorenin-2 cDNA using site-directed mutagenesis. Expression plasmids were derived from wild-type and mutant renin-2 cDNA and were transfected into AtT20 cells. Both transfected cells, expressing glycosylated or unglycosylated forms, secreted prorenin and renin by the constitutive and regulated pathways, respectively. Prorenin was correctly processed to active renin but the second maturation site was not cleaved in AtT20 cells. The comparison of glycosylated and unglycosylated renin expression showed a diminished secretion of glycosylated active renin. Prevention of glycosylation with tunicamycin resulted in an improved secretion of active renin. Moreover, the efficiency of the trypsin activation in vitro was reduced for glycosylated prorenin and it was restored when the activation was performed on mutant renin secreted from tunicamycin-treated cells. It is proposed that the bulky carbohydrates attached to prorenin constitute a steric hindrance to proteolysis by maturation enzymes.     

EFA6 regulates endosomal trafficking and affects early endosomes in polarized MDCK cells

The small-GTPase family of ADP ribosylation factors (ARFs) recruit coat proteins to promote vesicle budding. ARFs are activated by an association with sec7-containing exchange factors which load them with GTP. In epithelial cells, the small GTPase ARF6 operates within the endocytic system and has been shown to associate with ARNO to promote apical endocytosis and early to late endosomal trafficking. EFA6 has been shown to stimulate tight-junction formation and maintenance. Here, we show that in polarized epithelial MDCK cells, EFA6 is localized to early endosomes, causes their dramatic enlargement, and promotes basolateral targeting of IgA, which is normally targeted to the apical PM. These results suggest that the physiological function of ARF6 within the endocytic system is regulated by the exchange factor it associates with.     

Heterogeneity of expression and secretion of native and mutant [AspB10]insulin in AtT20 cells

AtT20 (pituitary corticotroph) cells were transfected with either the native or a mutant [AspB10]rat insulin II gene, using a plasmid containing the insulin gene and a neomycin resistance gene under the control of independent constitutive promoters. The cellular immunoreactive insulin (IRI) content ranged from 0.8-440 ng/10(6) cells, with the highest value similar to that found for a rat insulinoma cell line (RIN) and corresponding to approximately 1% that of native pancreatic B-cells. There was a direct correlation between insulin mRNA levels and IRI content and no correlation between mRNA levels and rat insulin II gene copy number. Furthermore, in some lines the insulin II transgene was lost even though the gene encoding neomycin resistance was retained. IRI release was stimulated up to 4-fold by isobutylmethylxanthine in all lines transfected with the native rat insulin II gene, and HPLC analysis showed most IRI as fully processed insulin, with less than 5% as proinsulin. These cells, thus, directed most proinsulin to secretory granules for conversion and regulated release regardless of the absolute amount of IRI expressed. One of the lines transfected with the AspB10 mutant gene (line AA9) released nearly 50% of IRI as proinsulin under basal conditions, with stimulation of insulin, but not proinsulin, release by isobutylmethylxanthine. This confirmed our previous finding of partial diversion of this mutant proinsulin from the regulated to the constitutive pathway. A second line (IC6) expressing the same mutant gene at much higher levels appeared to direct all mutant proinsulin to the regulated pathway, suggesting that for this particular mutant proinsulin, the secretory pathway employed by the transfected cells can be affected by the amount of proinsulin synthesized.     

Examination of microgravity effects on spontaneous Ca2+ oscillations in AtT20 pituitary cells using heavy water

Effects of heavy water (D2O) on various organisms have been extensively studied and a majority of D2O actions were generally ascribed to the viscosity (1.23 times of H2O) and a larger inter-molecule force of D2O that may eventually alternate molecular structure of various enzymes and ion channels. It is reported that chronic application of D2O induces toxic effects and the 35% substitution of whole body water with D2O induced fatal effects in the mouse. Mitosis of a fertile egg of sea urchin was completely inhibited by 75% D2O but the paused segmentation was recovered after rinse of D2O. In addition, we also observed that neuronal development of the Lymnaea stagnalis was reversibly inhibited by D2O (M. Sakakibara, unpublished data). However, mechanism of the toxicity of D2O and the effects of D2O on cellular events have not been fully understood. The spontaneous oscillation in cytosolic free Ca2+ concentration is one of the typical physiological events in living secretory cells. We previously demonstrated that the Ca2+ oscillations are regulated by voltage-sensitive Ca2+ channels (VSCC), Ca2+ ATPases, and Ca(2+)-induced Ca2+ release from intracellular stores. To analyze the site(s) of action of D2O in the living cellular systems, the present study examined effects of D2O on the Ca2+ mobilization and resting membrane potentials in AtT20 mouse pituitary cells.     

Clathrin-coated vesicular transport of secretory proteins during the formation of ACTH-containing secretory granules in AtT20 cells

We have studied by electron microscopy and immunocytochemistry the formation of secretory granules containing adrenocorticotropic hormone (ACTH) in murine pituitary cells of the AtT20 line. The first compartment in which condensed secretory protein appears is a complex reticular network at the extreme trans side of the Golgi stacks beyond the TPPase-positive cisternae. Condensed secretory protein accumulates in dilated regions of this trans Golgi network. Examination of en face and serial sections revealed that "condensing vacuoles" are in fact dilations of the trans Golgi network and not detached vacuoles. Only after presumptive secretory granules have reached an advanced stage of morphological maturation do they detach from the trans Golgi network. Frequently both the dilations of the trans Golgi network containing condensing secretory protein and the detached immature granules in the peri-Golgi region have surface coats which were identified as clathrin by immunocytochemistry. Moreover both are the site of budding (or fusion) of coated vesicles, some of which contain condensed secretory protein. The mature granules below the plasma membrane do not, however, have surface coats. Immunoperoxidase labeling with an antiserum specific for ACTH and its precursor polypeptide confirmed that many of the coated vesicles associated with the trans Golgi network contain ACTH. The involvement of the trans Golgi network and coated vesicles in the formation of secretory granules is discussed.     

Rab8b and its interacting partner TRIP8b are involved in regulated secretion in AtT20 cells

Rab proteins are a family of small GTPases that regulate intracellular vesicle traffic. Rab8b, because of its homology with Rab8, has been suggested to function in vesicle transport to the plasma membrane. Using the yeast two-hybrid system, we identified a Rab8b interacting clone, termed TRIP8b, from a rat brain cDNA library. The gene encodes a 66-kDa protein with homology to the peroxisomal targeting signal 1 receptor. The interaction between Rab8b and TRIP8b was further verified by in vitro binding assays and co-immunoprecipitation studies. Additional experiments with Rab8b mutants demonstrated that Rab8b requires a guanine nucleotide but not prenylation for its interaction with TRIP8b. Western immunoblot analysis showed that TRIP8b was primarily expressed in brain. Subcellular fractionation of AtT20 cells revealed that TRIP8b was present in both cytosolic and membrane fractions. To investigate the function of Rab8b and TRIP8b in secretion, we examined the release of ACTH from AtT20 cells. Results from stable cell lines expressing Rab8b or TRIP8b indicated that both proteins had a stimulatory effect on cAMP-induced secretion of ACTH. In summary, these data suggest that Rab8b and TRIP8b interact with each other and are involved in the regulated secretory pathway in AtT20 cells.     

Serum-free culture of AtT 20 pituitary cells: A system for neuroendocrine studies under defined conditions

Summary The growth of the mouse pituitary cell line AtT 20 was studied under different in vitro conditions. A completely defined, serum-free culture medium supported the survival of cells for a period of more than 2 mo. The medium, designed SFI, consisted of basal medium supplemented with transferrin, insulin, putrescine, and selenium. For maintenance of cells during long-term culture, no additional compounds were necessary. The time-dependent increases in cell number during culture with fetal bovine serum (FBS) and under serum-free conditions showed similar properties. Analysis of the effects of different substrata on cell growth demonstrated that polylysine supported adhesion and initial growth of cells to a greater extent than untreated plastic or FBS adsorbed to culture dishes. Synthesis and regulation of proopiomelanocortin (POMC)-mRNA, the precursor-mRNA of adrenocorticotropin (ACTH), could be detected by Northern blot analysis under basal conditions and after incubation with steroids and corticotropin-releasing hormone (CRH), indicating the serum-independent expression of important cellular properties.     

Role of cyclic adenosine 3',5'-monophosphate-dependent protein kinase in hormone-stimulated beta-endorphin secretion in AtT20 cells.

Secretion of beta-endorphin from mouse pituitary AtT20 cells is stimulated by a variety of compounds that raise intracellular cAMP and Ca2+. To investigate the role of cAMP-dependent protein kinases in secretion, AtT20 cells were transfected with an expression vector coding for a regulatory (R) subunit of cAMP-dependent protein kinase containing mutations in both cAMP-binding sites. Expression of the mutant regulatory subunit in stable transformants (RAB cells) results in a dominant inhibition of cAMP-dependent protein kinase activity. Isoproterenol (1 microM) or analogs of cAMP stimulated beta-endorphin secretion from AtT20 cells, but failed to stimulate secretion in RAB cells expressing the mutant R subunit. Secretion in response to CRF (100 nM) was inhibited by 80% in these mutant clones, whereas the secretory response to vasoactive intestinal peptide (VIP; 100 nM) or phorbol ester (100 nM phorbol myristate acetate) was not inhibited by the R subunit mutation. Intracellular cAMP was elevated in response to CRF (11- to 15-fold), isoproterenol (5- to 10-fold), and VIP (4- to 8-fold) in RAB cells. Similar concentrations of VIP were required to evoke beta-endorphin secretion in either RAB cells or AtT20 cells. As with most secretagogues, VIP-induced secretion was inhibited in the presence of either EGTA or a voltage-sensitive Ca2+ channel antagonist, PN200-110. The secretory response to VIP was unaffected by down-regulation of protein kinase-C. These results suggest that CRF and isoproterenol work via cAMP-dependent protein kinase to activate beta-endorphin secretion, whereas VIP can act by a different mechanism that does not involve cAMP-dependent protein kinase or protein kinase-C.     

Extremely low frequency electromagnetic field exposure promotes differentiation of pituitary corticotrope-derived AtT20 D16V cells

The pituitary corticotrope-derived AtT20 D16V cell line responds to nerve growth factor (NGF) by extending neurite-like processes and differentiating into neurosecretory-like cells. The aim of this work is the study of the effect of extremely low frequency electromagnetic fields (ELF-EMF) at a frequency of 50 Hz on these differentiation activities. To establish whether exposure to the field could influence the molecular biology of the cells, they were exposed to a magnetic flux density of 2 milli-Tesla (mT). Intracellular calcium ([Ca2+]i) and intracellular pH (pHi) were monitored in single exposed AtT20 D16V cells using fluorophores Indo-1 and SNARF for [Ca2+]i and pHi, respectively. Single-cell fluorescence microscopy showed a statistically significant increase in [Ca2+]i followed by a drop in pHi in exposed cells. Both scanning electron microscopy (SEM) and transmission microscopy of exposed AtT20 D16V cells show morphological changes in plasma membrane compared to non-exposed cells; this modification was accompanied by a rearrangement in actin filament distribution and the emergence of properties typical of peptidergic neuronal cells-the appearance of secretory-like granules in the cytosol and the increase of synaptophysin in synaptic vesicles, changes typical of neurosecretory-like cells. Using a monoclonal antibody toward the neurofilament protein NF-200 gave additional evidence that exposed cells were in an early stage of differentiation compared to control. Pre-treatment with 0.3 microM nifedipine, which specifically blocks L-type Ca2+ channels, prevented NF-200 expression in AtT20 D16V exposed cells. The above findings demonstrate that exposure to 50 Hz ELF-EMF is responsible for the premature differentiation in AtT20 D 16 V cells.     

AtT20 pituitary tumour cells contain mouse mammary tumour virus and intracisternal A-type particles in addition to murine leukemia virus

By electron microscopy and immunocytochemistry we have examined the retroviruses endogenous to AtT20 D16V cells, a cloned line of murine pituitary tumour cells. In addition to the C-type retrovirus particles related to Rauscher murine leukemia virus (MuLV) previously reported to bud from these cells we observed cytoplasmic A-type particles and intracisternal A-type particles (IAP). In the cytoplasm the A-type particles occur in large clusters often associated with sheets of material with a fine structure resembling the shells of the particles. At the plasma membrane individual A-type particles bud to give rise to extracellular virions. The IAP are restricted to the rough endoplasmic reticulum (RER) into which they bud: they are not transported out of the RER to the Golgi apparatus and beyond. We describe a new monoclonal antibody (designated 83E7) which is specific for an epitope of the major core protein (MTVp27) of mouse mammary tumour virus (MMTV). Using immunogold labelling procedures we have specifically labelled both the A-type particles and the associated sheets of material with this antibody. We conclude that the A-type particles and the virions they give rise to are MMTV. The sheets of material must also at least in part be made up of the major core protein of MMTV or its precursor polypeptide. AtT20 cells, therefore, contain endogenous MuLV and MMTV as well as IAP.     

Secretagogue-induced translocation of CRHSP-28 within an early apical endosomal compartment in acinar cells

Ca(2+)-regulated heat-stable protein (CRHSP-28) is a member of the TPD52 protein family that has been shown to regulate Ca(2+)-dependent secretory activity in pancreatic acinar cells. Immunofluorescence microscopy of isolated lobules demonstrated that CRHSP-28 is localized to a supranuclear apical compartment in acini and accumulates immediately below the apical membrane within 2 min of CCK octapeptide (CCK-8) stimulation. Dual-immunofluorescence microscopy demonstrated an endosomal localization of CRHSP-28 that strongly overlapped with early endosomal antigen-1 (EEA-1) on vesicular structures throughout the apical cytoplasm but showed only minimal overlap with the transferrin receptor, which is present in basolaterally derived endosomes. Significant overlapping of CRHSP-28 with the trans-Golgi network marker-38 was also noted in supranuclear regions of acini. Interestingly, treatment of lobules with brefeldin A reversibly disrupted the vesicular localization of CRHSP-28 and EEA-1 within the apical cytoplasm. The CCK-8-induced accumulation of CRHSP-28 in subapical regions of acini was not altered by inhibition of apical endocytosis with the actin filament-disrupting agent latrunculin B. Immunoelectron microscopy confirmed that CRHSP-28 is associated with the limiting membrane of irregularly shaped vesicular structures of low electron density in the apical cytoplasm that are positive for EEA-1 staining. Sparse, but significant, CRHSP-28 immunoreactivity was also observed along the limiting membrane of zymogen granules. Consistent with immunofluorescence data, CRHSP-28 was found to accumulate in clusters on endosomes and positioned between zymogen granules below the cell apex on CCK-8 stimulation. These data indicate that CRHSP-28 is present within endocytic and exocytic compartments of acinar cells and is acutely regulated by secretagogue stimulation.