Expression of biologically active procorticotrophin-releasing hormone (proCRH) in stably transfected CHO-K1 cells: characterization of nuclear proCRH

Expression and transient nuclear translocation of proprotein convertase 1 (PC1) during mouse preimplantation embryonic development

Preimplantation embryos express a number of hormones, neuropeptides, and membrane receptors known to derive from proteolytic activation of their precursors by the seven-member family of subtilisin-like, calcium-dependent serine proteinases known as proprotein convertases (PCs). The goal of this study was to determine the pattern of PC expression in mouse preimplantation embryos. Transcripts for all PCs, except PC2, were detected by reverse transcription-polymerase chain reaction (RT-PCR) in unfertilized and fertilized eggs. Furin, PACE4, PC1, and PC7 transcripts remained present at subsequent stages of preimplantation embryonic development, whereas the levels of transcripts for PC4 and PC5 gradually disappeared after the 2-cell stage. Proprotein convertase 1 (PC1) expression was further examined at the protein level. Immunoblotting revealed the presence of the zymogen and mature forms of this enzyme in eggs and embryos. Immunofluorescence laser confocal microscopy showed PC1-specific staining throughout the cytoplasm of unfertilized eggs. After fertilization, surprisingly, the staining was concentrated in pronuclei. It relocated to the cytoplasm at postzygotic stages and was particularly strong at junctions between blastomeres. The nuclear translocation of PC1 in fertilized eggs is probably mediated by its prodomain. Indeed, when transduced in human colon carcinoma LoVo cells, a mutant proPC1 incapable of cleaving off its prodomain was shown to accumulate in the nucleus. Furthermore, when N-terminally fused to green fluorescent protein, this domain was able to direct the reporter protein to the nucleus of these cells. Collectively, these data establish that eggs and preimplantation embryos express various PCs necessary for proteolytic activation of precursors of hormones and growth factors. They also raise the possibility of a nuclear function for PC1 during zygote formation.

Detection of functionally active melanocortin receptors and evidence for an immunoregulatory activity of alpha-melanocyte-stimulating hormone in human dermal papilla cells

Proopiomelanocortin (POMC)-derived peptides and their receptors have been identified in many peripheral organs including the skin in which they exert a diversity of biological actions. We investigated the expression and potential role of the POMC system in human dermal papilla cells (DPCs), a specialized cutaneous mesenchymal cell type regulating hair follicle activity. In culture, these cells expressed POMC and displayed immunoreactivity for ACTH, alphaMSH, and beta-endorphin. Among the prohormone convertases (PCs) tested, only PC2, its chaperone 7B2, and furin convertase but not PC1 and paired basic amino acid cleaving enzyme 4 gene were detected. Human DPCs in vitro expressed both the melanocortin-1 receptor (MC-1R) and MC-4R, and immunoreactivity for these receptors was also present in cells of the human dermal papilla in situ. In contrast to the dermal papilla of agouti mice, agouti signaling protein, a natural and highly selective MC-1R and MC-4R antagonist, was undetectable in human DPCs. The MC-Rs detected in human DPCs were functionally active because alphaMSH increased intracellular cAMP and calcium. Preincubation of the cells with a synthetic peptide corresponding to the C-terminal domain of agouti signaling protein abrogated cAMP induction by alphaMSH. Furthermore, alphaMSH was capable of antagonizing the expression of intercellular adhesion molecule-1 induced by the proinflammatory cytokine interferon-gamma. Our data suggest a regulatory function of alphaMSH within the dermal papilla whose disruption may lead to deregulation of immune and inflammatory responses of the hair follicle, thereby possibly contributing to the development of inflammatory forms of alopecia.

ProCRH in the teleost Ameiurus nebulosus: gene cloning and role in LPS-induced stress response

The procorticotrophin-releasing hormone (proCRH) gene from the teleost Ameiurus nebulosus was cloned by direct and inverse PCR-based technologies and characterized. The structure of the proCRH gene shows the presence of four exons and three introns giving a total length of 1416bp. Sequence similarity with the corresponding proCRH coding sequences in Tilapia mossambica and Homo sapiens is 97.7 and 78%, respectively. Western blot experiments performed with an anti-human CRH (1-41) antibody revealed the presence of an immunoreactive molecule with an approximate MW of 18kDa, a value comparable to that of the putative catfish proCRH peptide. These data suggest that proCRH could be active in A. nebulosus without any cleavage. ProCRH immunoreactive molecules were found in the central nervous system (CNS) and were immunocytochemically detected in the head kidney and in the pancreatic gland. Western blot and immunocytochemical experiments showed an increase in proCRH expression in the CNS after 15min but not after 120min exposure to LPS. In contrast, the increased immunopositivity was detectable in the pancreas only after 120min of treatment, but in the head kidney throughout the entire period of exposure. Our findings indicate that the CNS responds to the altered conditions for a shorter period of time than the peripheral organs, suggesting a hierarchical and time-regulated stress response. However, an independent response in the peripheral organs cannot be excluded in this scenario.

Cloning and characterisation of a procorticotrophin-releasing hormone in the IZD-MB-0503 immunocyte line from the insect Mamestra brassicae

The cloning and characterisation of a procorticotrophin-releasing hormone (proCRH) and the related CRH fragment in the IZD-MB-0503 cell line from the leptidopteran Mamestra brassicae were performed. PCR amplification of the genomic DNA reveals a fragment of 276 bp, while inverse PCR shows the presence of a gene consisting of 1153 bp. The comparison of the insect genomic proCRH gene with proCRH cDNA obtained by RACE shows the presence of three introns. There was a 61% identity with the corresponding coding sequence in Tilapia mossambica, and a 65.2% identity with the human proCRH coding sequence.

Advances in animal cell recombinant protein production: GS-NS0 expression system

The production of recombinant proteins using mammalian cell expression systems is of growing importance within biotechnology, largely due to the ability of specific mammalian cells to carry out post-translational modifications of the correct fidelity. The Glutamine Synthetase-NS0 system is now one such industrially important expression system.Glutamine synthetase catalyses the formation ofglutamine from glutamate and ammonia. NS0 cellscontain extremely low levels of endogenous glutaminesynthetase activity, therefore exogenous glutaminesynthetase can be used efficiently as a selectablemarker to identify successful transfectants in theabsence of glutamine in the media. In addition, theinclusion of methionine sulphoximine, an inhibitor ofglutamine synthetase activity, enables furtherselection of those clones producing relatively highlevels of transfected glutamine synthetase and henceany heterologous gene which is coupled to it. Theglutamine synthetase system technology has been usedfor research and development purposes during thisdecade and its importance is clearly demonstrated nowthat two therapeutic products produced using thissystem have reached the market place.

Procorticotrophin-releasing hormone: endoproteolytic processing and differential release of its derived peptides within AtT20 cells

Procorticotrophin-releasing hormone (proCRH) is expressed mainly in the hypothalamus and in the placenta, where it undergoes tissue-specific endoproteolysis. Our results show that within stably transfected AtT20/D16V cells proCRH is cleaved to generate two fragments of approximately 8 and 3 kDa which could account for proCRH(125-194) and proCRH(125-151), respectively, and a 4.5 kDa product which could account for mature IR-CRH(1-41). The immunofluorescence staining patterns for IR-CRH and IR-ACTH and their response of secretagogues indicate targeting of proCRH and POMC to the secretory pathway in transfected AtT20 cells. In this work, we have used a unique set of specific RIAs and IRMAs to the full length POMC and proCRH molecules and several products of endoproteolytic processing to assess if they could be released differentially in response to stimulation. Although the release of both IR-ACTH and IR-CRH peptides from transfected AtT20 cells is stimulated in response to exposure to high potassium stimulation (51 mM KCl/SmM CaCl2), the sorting index (SI) suggests that mature ACTH is sorted to the regulated secretory pathway 2.1-fold more efficiently than mature CRH(1-41). Mature ACTH is also sorted to the regulated secretory pathway 9-fold more efficiently than IR-proCRH(125-151). Also, mature CRH(1-41) is sorted to the regulated secretory pathway 3-fold more efficiently than IR-proCRH(125-151). These results therefore indicate that the intracellular mechanisms for the storage and release of POMC, proCRH and their endoproteolytic products differ and would sustain the hypothesis that within mammalian peptidergic cells, different biologically active peptides originating from the same or different precursor molecules, could be differentially released in response to specific stimuli. This would give these cells the capacity to finely regulate neurotransmitter release in response to environmental and physiological demands.

Electrophysiological evidence against a neurotransmitter role of corticotropin-releasing hormone (CRH) in primary somatosensory cortex

The possible neurotransmitter role of corticotropin-releasing hormone (CRH) was studied in the primary somatosensory cortex of the rat. Electrical activity of single neurones was recorded in layers II-VI of cortex, and in the region of the locus coeruleus. Iontophoresis and pressure ejection were employed to locally apply CRH, and changes in spontaneous, synaptically driven and iontophoretically driven firing were examined. In the cortex, of 62 neurones recorded most (51) were completely unaffected by high and prolonged current/pressure ejections of CRH. Depression of firing was occasionally seen (8 of 62), while a very few (3) were weakly excited. Of 25 cells studied with vibrissal stimulation to evoke excitatory synaptic responses, responses in two cells were depressed and in two they were enhanced. Activity that was evoked by iontophoretic ejection of excitatory amino acids, such as glutamate, was depressed in 6 of 40 cells (none were enhanced). Such effects as were seen were weak and often difficult to reproduce. The effect of CRH on depressions produced by GABA was also tested in four experiments. No effects on the amplitude or duration of the depressions were observed. In contrast recordings made in the midbrain, in the region of the locus coeruleus, resulted in over half the neurones (11 of 20) showing clear reproducible excitatory responses to CRH applications. Solutions used in the experiments were analysed using chromatography, radioimmunoassay and bioassay, and no significant degradation of the peptide was found compared with the synthetic standard (CRH (1-41)). The data provide evidence against CRH acting as a neurotransmitter or modulator in primary cortex, suggesting that the CRH which is localized in certain types of cortical cells is involved in other processes.

Effect of the corticotrophin releasing hormone precursor on interleukin-6 release by human mononuclear cells

A growing body of evidence suggests that corticotrophin releasing hormone (CRH) may exert direct modulatory effects on immune cells. In the present study we assessed the effects of its precursor molecule, proCRH, on interleukin-6 (IL-6) release by human peripheral blood mononuclear cells (MNC). Human MNC were incubated with the corresponding stimuli for 24 hr. The supernatants were collected and IL-6 measured by ELISA. Conditioned medium from CHO-K1 cells stably transfected with the recombinant plasmid pEE14/rat pre-proCRH cDNA was used as the source of proCRH. Western blot analysis of this medium, using an antibody specific for the intact precursor, showed that no proCRH degradation products were present. The proCRH had an inhibitory effect on basal and LPS-stimulated release of IL-6. These results suggest that the full length CRH precursor may possess immunomodulatory properties.

Expression of transgenes in normal and neoplastic anterior pituitary cells using recombinant adenoviruses: long term expression, cell cycle dependency, and effects on hormone secretion

Adenovirus vectors have recently been used to transfer genes into a variety of cell types, including neurons, glial cells, Schwann cells, and epithelial cells. To evaluate the efficiency of gene transfer into pituitary cells using viral vectors, we used replication-deficient recombinant adenovirus vectors (RAds) encoding beta-galactosidase driven by various viral promoters. We tested the ability of RAds to infect and express beta-galactosidase within the different identified cell populations of the anterior pituitary anterior pituitary gland and also in tumor cells of anterior pituitary origin, i.e. GH3 and AtT20 cells. Our results demonstrate that transgenes encoded by RAds are expressed within all cell types of the adenohypophysis in vitro and also within AtT20 and GH3 endocrine tumor cells. Our long term expression studies indicate that long term expression with low cytotoxicity can be achieved, but that the longevity of transgene expression from RAds depends on the proliferative status of the target cells. Slowly dividing cells (endocrine population) express transgenes for longer than actively dividing cells (tumor cells and nonendocrine anterior pituitary cells). The ability of anterior pituitary cells to secrete ACTH or LH through the regulated secretory pathway decreased after infection with RAds at high multiplicity of infection (> or = 20 plaque-forming units/target cell), whereas cell viability was not affected. We also demonstrate that a higher percentage of cells expressed the transgene beta-galactosidase when we infected actively dividing GH3 cells compared with the infection of growth-arrested GH3 cells. This could reflect differential virus entry or differential activity of the individual promoters during different stages of the cell cycle. This work demonstrates that high efficiency gene transfer into all pituitary cell types can be achieved with RAds, and that this system can be exploited to characterize and experimentally manipulate pituitary-specific gene expression. The higher efficiency of infection and transgene expression in actively dividing cells compared to that in their growth-arrested counterparts could also be exploited for the treatment of pituitary adenomas that do not respond to classical treatment strategies, using suicide or cytotoxic gene therapy.

Co-localisation of autoimmune antibodies specific for double stranded DNA with procorticotrophin-releasing hormone within the nucleus of stably transfected CHO-K1 cells

Human autoantibodies and corticotrophin-releasing hormone (CRH)-specific antibodies have been used in a double-labelling immunofluorescence technique to demonstrate that immunoreactive CRH structures are co-localised with immunostaining produced by double stranded DNA-specific human autoantibodies within the nucleus of cultured ovarian cells of Chinese hamsters (CHO-K1). This co-localisation was confirmed using confocal microscopy. A metabolic labelling technique was used to investigate the role of the cytoskeleton in mediating nuclear translocation of proCRH within stably transfected CHO-K1 cells and showed that microtubule and actin disrupting agents had no effect upon the nuclear translocation of proCRH. These results, therefore, suggest that nuclear translocation of proCRH is not affected by drugs which disrupt the cytoskeleton and, consequently, modify the diameter of the nuclear pores.