Development of an optimized protocol for primary culture of smooth muscle cells from rat thoracic aortas

Primary culture of smooth muscle cells has been widely used as a valuable tool to study the molecular mechanisms underlying atherosclerosis and restenosis. Currently, tissue explants and enzymatic digestion methods are frequently applied to produce smooth muscle cells. Explants method is time consuming, usually taking several weeks. The enzymatic digestion method requires large amounts of proteolytic enzymes to generate enough cells for cardiovascular research. The present study reports an optimized method by combining both techniques to obtain high purity smooth muscle cells. The cultured cells exhibited the characteristic “hills and valleys” growth pattern as observed by phase contrast microscopy and showed α-SM-actin positive staining by indirect immunocytochemistry and immunofluorescence. Purity of the cells is guaranteed by the lack of von Willebrand Factor immunoreactivity. Finally, the cultured cells well proliferate on oxidized-LDL stimulation, suggesting the practical utility of this new method.     

Binding of luteinizing hormone-releasing hormone analogues to dispersed rat pituitary cells

The binding of luteinizing hormone-releasing hormone (LHRH) to dispersed rat pituitary cells was studied by using ¹²⁵I-labeled analogues of the neurohormone: a superactive agonist [D Ser (Bu^t)⁶]LHRH(1–9) ethylamide and an antagonist DpGlu¹, DPhe², DTrp^3,6-LHRH. Although these cells were exposed to proteolytic enzymes, their ability to respond to LHRH stimulation by gonadotropin release, is preserved. The time course of binding of the two analogues at different temperatures has demonstrated that highest specific binding is evident at 4°C and that equilibrium is reached after 90 min of incubation at this temperature. Incubation of pituitary cells with the labeled analogues together with increasing concentrations of LHRH or unlabeled analogues exhibited parallel competition curves, suggesting binding to the same receptor sites but with different affinities. Biologically inactive analogues of LHRH or unrelated peptides such as TRH did not compete for binding sites. K_a values for the agonist, LHRH and the antagonist were 2.1 × 10⁹M^?1, 0.92 × 10⁸M^?1 and 0.76 × 10⁹M^?1, respectively, and the binding capacity was 116 fmoles/10⁶ pituitary cells.     

The effect of clomiphene citrate on LH release by dispersed rat anterior pituitary cells

Preincubation of pituitary cells for 48 hours with estrogen or clomiphene citrate did not enhance LH release of dispersed pituitary cells after incubation for 4 hours without the secretagogues. In the presence of GnRH, estrogen increased release, but neither the racemic mixture of clomiphene nor its two trans and cis isomers had any appreciable effect on LH release. It is concluded that contrary to published reports, clomiphene in the rat pituitary may behave differently from estrogen in its effects on gonadotrphin release by dispersed cells.     

Second messenger pathways mediating chicken luteinizing hormone secretion from dispersed pituitary cells.

A series of studies was conducted to evaluate the ability of several second messengers/second messenger systems to stimulate LH secretion from dispersed chicken pituitary cells. [Gln8]-LHRH-(cLHRH) stimulated LH secretion in a dose-dependent fashion; this effect was potentiated in the presence of the phosphodiesterase inhibitor, 3-isobutyl-1-methylxanthine, and was mimicked by the cAMP analog, 8-bromo-cAMP. These data indicate that the production of cAMP in response to cLHRH can stimulate LH secretion, but do not necessarily provide evidence that such production is prerequisite. The tumor-promoting phorbol ester, phorbol 12-myristate 13-acetate (PMA), and diacylglycerol analogs, 1-oleoyl-2-acetylglycerol (OAG) and 1,2-dioctanoyl-sn-glycerol (DOG), also stimulated LH release; however, only PMA (and not cLHRH or DOG) promoted an accumulation of cAMP. The putative protein kinase C inhibitor, staurosporine, completely blocked LH release stimulated by PMA, but failed to block cLHRH-induced LH secretion. Such results indicate that protein kinase C activation can promote LH secretion, but also suggest that additional second messengers may exist to fully mediate the effects of cLHRH. Both the calcium ionophore, A23187, and the intracellular calcium mobilizing agent, thapsigargin, caused a dose-dependent increase in LH secretion; furthermore, thapsigargin augmented the stimulatory effects of PMA. These data are consistent with a role for calcium in the regulation of LH release, and indicate that the mobilization of intracellular calcium alone can affect such an action.(ABSTRACT TRUNCATED AT 250 WORDS)     

Progestin receptors in dispersed rat anterior pituitary cells: Enriched binding in lactotrope fractions

Cytosolic progesterone and R5020 binding activities were demonstrated in Pronase-dispersed anterior pituitary cells from estrogenprimed ovariectomized and adrenalectomized rats. Pronase-dispersed pituitary cells were also separated into six cellular fractions on the basis of size and density by sedimentation velocity at unit gravity 1n a BSA gradient. Fractions enriched in lactotropes or gonadotropes were identified by the cellular contents of radioimmunoassayable prolactin and LH, respectively. Cytosollc progestin receptors appeared to be predominantly associated with lactotrope-rich fractions. Since there was some cross-over between the LH and prolactin enriched fractions, progestin receptors may also be associated with a subpopulation of gonadotropes, as well.     

Perifusion model system to culture bovine hypothalamic slices in series with dispersed anterior pituitary cells

Summary Dispersed bovine anterior pituitary cells were incubated either in static or perifusion cultures to assess basal growth hormone release as well as stimulatory and inhibitory effects of growth hormone-releasing hormone and somatostatin, respectively, on growth hormone release. Total concentrations of growth hormones over a 12-hour incubation period were fivefold greater in perifused than in static cultures (2034 ± 160 vs. 387 ± 33 ng/12 h). A dose-dependent increase in growth hormone secretion in response to challenge with growth hormone-releasing hormone (10⁻¹² to 10⁻⁸ M) for 1 h was observed in both static and perifusion cultures; however, perifused cells were more responsive to the same concentration of neuropeptide than those in static culture. Concentrations of somatostatin (10⁻¹² to 10⁻⁸ M) for 1 h did not inhibit basal growth hormone secretion in either static or perifusion cultures. To establish model, slices of the hypothalamus, immediately adjacent to the sagittal midline, were perifused in series with anterior pituitary cells, and media effluent was assayed for growth hormone concentrations. Release of growth hormone was pulsatile and seemed to mimic the episodic pattern of bovine secretion. Hypothalamic slices were placed in one chamber of the perifusion system, and basal secretion of growth hormone-releasing hormone and somatostatin was pulsatile in media effluent. Tissue viability of hypothalamic slices and anterior pituitary cells was evaluated by KCl depolarization. Tissues were viable for at least 120 h. Thus, this hypothalamo-pituitary dual chamber perifusion system is a valid in vitro model to study regulation of growth hormone secretion.     

The effect of somatostatin and of prolyl-leucyl-glycinamide (MIF) on ACTH release in dispersed pituitary cells.

The hypothalamic releasing and release-inhibiting peptides have multiple effects on more than one pituitary hormone. In this study the action of the two hypothalamic inhibiting factors, somatostatin (GH-IH) and MSH release-inhibiting factor, prolyl-leucyl-glycinamide (MIF), on ACTH release were studied. Increasing concentrations of GH-IH and MIF were added to 1 ml of a suspension of dispersed anterior pituitary cells from male rats. Both GH-IH and MIF (10^?5 to 10^?11 M) were without effect on basal ACTH secretion of normal and of adrenalectomized rats. However, both peptides, within certain concentration ranges, inhibited the ACTH release stimulated by rat hypothalamic extracts or by arginine vasopressin. The most effective concentrations were 35 nM MIF or 6 nM GH-IH. Beyond these concentrations no further suppression was observed. Our results indicate that somatostatin and MIF can inhibit ACTH release, but only in a state of steroid deprivation and within a limited dose range.     

Monolayer cultures of dispersed cells from bovine anterior pituitary: responses to synthetic hypophysiotropic peptides.

Cells were dispersed from bovine anterior pituitary glands, by digestion with collagenase, and cultured. After 4 days the cell monolayers were incubated with fresh medium containing synthetic hypophysiotropic peptides for 2, 6, or 20 h, and hormone released into the medium was estimated by radioimmunoassay. After 2 h, thyroid releasing hormone (TRH) stimulated the release of thyroid-stimulating hormone (TSH) up to eightfold, and of prolactin (PRL) and follicle-stimulating hormone (FSH) about twofold at a minimal effective concentration of 1 ng/ml; enhanced growth hormone (GH) release was not apparent until 20 h, and release of luteinizing hormone (LH) and adrenocorticotrophic hormone (ACTH) was unaffected. Luteinizing hormone releasing hormone (LH-RH) enhanced release of LH maximally (three- to fourfold) during a 2 h incubation and was effective at 0.1 ng/ml; FSH release was significantly enhanced by about 50% above control level. Growth hormone release inhibiting hormone (GH-RIH)(somatostatin) showed significant effects only in the 20 h incubation; GH release was inhibited by 50% and release of PRL was slightly, but significantly, enhanced. Pituitary cell monolayers apparently permit maximal expression of releasing activities inherent in the hypothalamic hormones.     

Development of an optimized 5-stage protocol for the in vitro preparation of insulin-secreting cells from mouse ES cells

In order to produce insulin-secreting cells with a high value of glucose-stimulated insulin secretion (GSIS) from mouse embryonic stem cells, we have developed an optimized 5-stage protocol by referring to culture conditions so far reported elsewhere. This protocol is characterized by 4 points: (1) use of an activin-free medium in the first stage, (2) use of gelatin/fibronectin coated culture dishes in 1–4 stages throughout, (3) removal of undifferentiated cells by cell sorter at the end of 4th stage, and (4) sedimental culture in the 5th stage. GSIS value of the produced cells reached 2.4, that was at a higher rank of those so far reported. The produced cells were transplanted in diabetes model mice but no remedy effect was observed. Then transplantation was conducted in pre-diabetes model mice, in which GSIS was impaired without affecting insulin producing function. The transplantation of 5 × 10⁶ cells resulted in a marked improvement of glucose tolerance within 20 days. This effect decreased but was still observed at 120 days post-transplantation. This demonstrates the feasibility of the novel optimized protocol.     

An optimized protocol for protein purification in cultured mammalian cells using a tandem affinity purification approach

This protocol describes a method that we developed to adapt the tandem affinity purification (TAP) approach for use in mammalian cells. The protocol involves fusing a protein of interest with a tandem tag consisting of two FLAG tags (FF) followed by two protein-A immunoglobulin G (IgG) binding domains (ZZ). The protocol improves upon previously published TAP approaches by employing FLAG in place of calmodulin binding peptide (CBP) with resulting higher recovery during purification. In addition, we use a bicistronic expression system that ensures recovery of stably transfected cell lines expressing easily detectable levels of the protein of interest. A method is also presented for generating cytoplasmic and nuclear extracts, which extends use of this protocol to identify protein-protein interactions occurring specifically in the cytoplasm or nucleus. This protocol facilitates the preparation of partially purified recombinant protein and identification of protein-protein interactions in mammalian cell culture models. The protocol can be completed in 34 h.     

Effects of dopamine and norepinephrine on in vitro spontaneous and gonadotropin-releasing hormone-induced gonadotropin release by dispersed cells or fragments of the goldfish pituitary

Enzymatically dispersed goldfish pituitary cells or freshly prepared goldfish pituitary fragments continue to secrete gonadotropin spontaneously in a column perifusion system. After the establishment of basal secretion rates, treatment of dispersed pituitary cells with 5 and 500 nM dopamine, or pituitary fragments with 50 and 100 nM dopamine, decreased the amount of gonadotropin released into the perifusate. Perifusion with 500 nM dopamine also abolished the gonadotropin-release response to a 10 nM solution of a luteinizing hormone-releasing hormone analogue in both perifusion systems. Perifusion of pituitary dispersed cells or fragment preparations obtained from sexually regressed goldfish with 50 nM norepinephrine consistently increased the amount of gonadotropin released into the perifusate. These results provide in vitro evidence for direct dopamine inhibition of spontaneous gonadotropin release, blockade by dopamine of gonadotropin-releasing hormone actions, and norepinephrine stimulation of gonadotropin secretion in goldfish.     

Acetylcholine increases intracellular Ca2+ in the rat pituitary folliculostellate cells in primary culture

Pituitary folliculostellate cells (FSCs) are thought to partially inhibit pituitary hormone secretion through a paracrine mechanism. In this process, one of the important questions is what factors regulate the function of FSCs. Because ACh is synthesized in and possibly released from the corticotrophs and lactotrophs, we examined whether FSCs respond to ACh by the method of Ca2+ imaging in primary cultured FSCs from male Wistar rats. ACh (30 nM-3 microM) increased intracellular calcium concentration ([Ca2+](i)) of FSCs in a concentration-dependent manner, with an initial rapid rise followed by a relatively sustained increase. The complete block of the response by atropine and pirenzepine suggests involvement of muscarinic receptors. Depletion of the stored Ca2+ by thapsigargin blocked the response completely. Blockers of phospholipase C, U-73122 and neomycin, suppressed significantly the rise of [Ca2+](i). These results suggest that ACh increases [Ca2+](i) in FSCs by activating phospholipase C, presumably through activation of M(1) receptors. The rise in [Ca2+](i) could trigger a variety of Ca2+-dependent cellular processes, including the synthesis and release of bioactive substances, which in turn act on endocrine cells.     

Insulin-like growth factor-I stimulates endothelin-3 secretion from rat anterior pituitary cells in primary culture

Since we found relatively high concentrations of immunoreactive (ir-) ET-3 in the rat pituitary gland (190 pg/g tissue), we have investigated the possible ET-3 secretion from the primary culture of anterior pituitary cells and the effects of various growth factors on the ET-3 secretion. The ir-ET-3 was detected in the incubation medium within 2 h, and 24 h of culture attained the concentrations of 1.15 +/- 0.26 pg/well/6 x 10(5) cells. The ir-ET-3 secretion was stimulated by insulin, insulin like growth factor-II (IGF-II), and most effectively by insulin like growth factor-I (IGF-I) in a dose- and time-dependent manner, whereas the production of ir-ET-1 and ir-big ET-1 was slightly inhibited by IGF-I and IGF-II. In reverse-phase HPLC, the ir-ET-3 released into the culture media showed identical retention time with authentic ET-3. Although ir-ET-1 and ir-big ET-1 secretion was stimulated by transforming growth factor-beta (TGF-beta), ir-ET-3 secretion was inhibited. These results indicate that the anterior pituitary cells secrete ET-3 and the secretion is stimulated by IGF-I.