Long-term culture of human esophageal explants and cells

Human esophageal epithelium obtained from intermediate autopsies (<12 h) was maintained as cell and explant cultures. In order to develop a serum-free, defined media culture model, several medias and additives were evaluated. The viability and differentiation of the epithelial cells cultured with serum-free, Keratinocyte Growth Media (KGM, Clonetics Co., San Diego, CA) was improved over that of esophageal cells and explants cultured in either serum-supplemented CMRL 1066 (OCM), serum-free additive-supplemented CMRL 1066, or cimetidine-supplemented CMRL 1066. The KGM component EGF was determined to be trophic for esophagus cells on the basis of findings of increased ³H-TdR tabelling in KGM cultures when compared to control cells grown in KGM without EGF (KBM). The morphologic pattern of the cytoskeletal proteins actin, keratin, and vimentin were characterized in isolated cell populations. The intermediate filaments, keratin, and vimentin were co-expressed in these epithelial cells. Esophageal explant viability, differentiation, and outgrowth from 15 cases were also evaluated in dishes coated with basement membrane associated proteins. Explants cultured in these dishes were equally well-preserved and differentiated. There were no significant differences in the explant histology when there was protein coating of the culture dishes, although one case showed improved outgrowth with laminin coating. A main advantage for using this culture system is that the same medium (KGM) can be used for both the culture of explants and isolated epithelial cells. Future applications of this model include determining: (1) the effect different concentrations of EGF and calcium in the media will have on esophageal proliferation and differentiation, and (2) the role of different basement membrane associated proteins on the plating efficiency of either isolated or outgrowth epithelial esophageal cells.This is publication #2544 from the Pathobiology Laboratory.     

Organ explant culture of adult Syrian golden hamster pancreas

Summary An organ explant culture system has been developed for long term maintenance of adult pancreatic tissue from the Syrian golden hamster. Gastric and duodenal lobe explants of up to 0.5 cm² size were placed in tissue culture dishes (60 mm²) on Gelfoam sponge rafts to which was added 5 ml of CMRL medium 1066 supplemented with heat inactivated newborn bovine serum,l-glutamine hydrocortisone, insulin, and antibiotics. Dishes were placed in a controlled atmosphere chamber, which was gassed with 45% O₂ 50% N₂, and 5% CO₂ and incubated at 36.5°C. Viability of the tissues was determined by light and electron microscopy as well as by [³]thymidine incorporation. Explants were viable for up to 70 d. Zymogen granule-containing cells characteristic of acinar cells and mucuscontaining cells characteristic of ductal cells were present throughout this period. However, endocrine cells were only present for the 1st wk in culture. This work was supported in part by National Cancer Institute Grant CA-19197-06 through the National Pancreatic Cancer Project and is UMP contribution No. 950.     

Explant culture of rat colon: A model system for studying metabolism of chemical carcinogens

Summary An explant culture system has been developed for the long-term maintenance of colonic tissue from the rat. Explants of 1 cm² in size were placed in tissue-culture dishes to which was added 2 ml of CMRL-1066 medium supplemented with glucose, hydrocortisone, β-retinyl acetate, and either 2.5% bovine albumin or 5% fetal bovine serum. The dishes were placed in a controlied-atmosphere chamber which was gassed with 95% O₂ and 5% CO₂. The chamber then was placed on a rocker platform which rocked at 10 cycles per min causing the medium to flow intermittently over the epithelial surface. The explants were incubated at 30°C. The viability of the tissue was measured both by incorporation of specific precursors into cellular macromolecules and by monitoring of tissue morphology with light and electron microscopy. Cultured rat colon was able to metabolize benzo[a]pyrene, 7,12-dimethylbenz[a]anthracene, aflatoxin B₁, dimethylnitrosamine, 1,2-dimethylhydrazine, and methylazoxymethanol acetate into chemical species that bind to cellular DNA and protein.     

<Emphasis Type="Italic">In vitro</Emphasis> propagation of northern red oak (<Emphasis Type="Italic">Quercus rubra</Emphasis> L.)

In vitro propagation of northern red oak (Quercus rubra) shoots was successful from cotyledonary node explants excised from 8-wk-old in vitro grown seedlings. Initially, four shoots per explant were obtained on Murashige and Skoog (MS) medium supplemented with 4.4 μM 6-benzylaminopurine (BA), 0.45 μM thidiazuron (TDZ), and 500 mg l⁻¹ casein hydrolysate (CH) with a regeneration frequency of 64.7% after 3 wk. Subculturing explants (after harvesting shoots) to fresh treatment medium significantly increased shoot bud regeneration (16.6 buds per explant), but the buds failed to develop into shoots. A higher percentage (73.3%) of the explants regenerated four shoots per explant on woody plant medium (WPM) supplemented with 4.4 μM BA, 0.29 μM gibberellic acid (GA₃), and 500 mg l⁻¹ CH after 3 wk. Explants subcultured to fresh treatment medium after harvesting shoots significantly increased shoot regeneration (16 shoots per explant). Shoot elongation was achieved (4 cm) when shoots were excised and cultured on WPM supplemented with 0.44 μM BA and 0.29 μM GA₃. In vitro regenerated shoots were rooted on WPM supplemented with 4.9 μM indole-3-butyric acid. A higher percentage regeneration response and shoot numbers per explant were recorded on WPM supplemented with BA and GA₃, than on MS medium containing BA and TDZ. Lower concentrations of BA and GA₃ were required for shoot elongation and prevention of shoot tip necrosis. Each cotyledonary node yielded approximately 20 shoots within 12 wk. Rooted plantlets were successfully acclimatized.     

<Emphasis Type="Italic">In vitro</Emphasis> regeneration of the tennessee coneflower (<Emphasis Type="Italic">Echinacea tennesseensis</Emphasis>)

Summary Tennessee coneflower [Echinacea tennesseensis (Beadle) Small] was regenerated from flower stalks, leaf sections from flowering plants, and hypocotyls and cotyledons from seedlings. Murashige and Skoog medium (MS) supplemented with naphthaleneacetic acid (NAA) at 0.54 μM and thidiazuron (TDZ) at 22.7 μM yielded the most shoots per leaf explant. NAA and 6-benzylaminopurine concentrations for optimal shoot regeneration from leaf, flower stalk, cotyledon and hypocotyl explants in MS media were 0.54 and 24.6μM, respectively. All explant types generated shoots; however, those derived from leaves and flower stalks produced the highest number of shoots per explant and highest percentage of explants with shoots. Explants cultured on media containing high levels of NAA (5.4–27 μM) formed calluses but no adventitious shoot. Leaf explants responded to a wider range of NAA concentrations than the other explant types but shoots generated from flower stalks grew the fastest. While all cytokinins tested increased the number of shoots per explant, the number of shoots in media containing TDZ was increased by nearly threefold. Regenerated shoots from all explant types cultured on MS medium supplemented with 0.25 μM indole-3-butyric acid initiated roots within 4 wk; NAA was not effective for root induction. All vernalized plantlets developed into plants that were morphologically identical to the source material.     

Factors affecting in vitro differentiation of explants from mature leaves ofArachis villosulicarpa hoehne

Summary Explants ranging in size from 0.5 to 4 mm² were cut from fully expanded leaflets of mature, nonfloweringArachis villosulicarpa Hoehne plants that had been raised in a growth chamber with a 16-h light: 8-h dark photoperiod. Explants were cultured on the major and minor minerals of Murashige and Skoog, Gamborg's B-5 vitamins, 30 g/l sucrose, 7 g/l agar, and 1 mg/l each of N⁶-benzyladenine and α-napathaleneacetic acid at pH 5.8. Half of the 2-and 4-mm² explants were cut to include a segment of the midvein and half had no vein segment. For all sizes of explants, with or without vein segments, half were placed with the axial epidermis in contact with the agar and the other half were placed with the adaxial epidermis on the agar. Fifty replicates of each treatment were cultured at each of four light intensities: 53, 49, 45, or 43 μE·M ⁻²·s⁻¹. Results indicate that shoot formation is increased when (a) light intensity is increased, (b) no segment of midvein is included in the explant, (c) explants are placed with the adaxial epidermis in contact with the medium, and (d) the size of explants is increased. The research was supported by Oklahoma State University and the Oklahoma Agricultural Experiment Station. Dr Pittman is a Research Geneticist with the USDA, ARS, Stillwater, OK.     

Influence of auxins in direct <Emphasis Type="Italic">in vitro</Emphasis> morphogenesis of <Emphasis Type="Italic">Euphorbia nivulia</Emphasis>, a lectinaceous medicinal plant

Summary Somatic embryo (bipolar) or shoot (monopolar) morphogenesis in mesophyll cells of Euphorbia nivulia Buch.-Ham in vitro was dependent on the type of auxin supplementing Murashige and Skoog (MS) medium containing benzyladenine. Direct in vitro morphogenesis, i.e., organogenesis, and somatic embryogenesis were significantly influenced by seasonal growth of the donor plant, explant position (proximal, mid, and distal), and light. Explants collected in march/April were superior to July/August material. Proximal explants underwent morphogenesis more readily than mid- and tip-derived explants. Incubation in the light favored morphogenesis while darkness was inhibitory. Kinetin (Kn) was also inhibitory to morphogenesis. MS medium enriched with different levels of N⁶-benzyladenine (BA) alone, or in combination with α-naphthaleneacetic acid (NAA) or indole-3-acetic acid (IAA), induced adventitious shoots directly. Explants collected in March/April cultured on medium with 13.3 μM BA and 2.69 μM NAA developed the highest number of shoots, a mean of 15.2 shoots per proximal explant. Developed shoots rooted the best on half-strength MS medium with 2.46 μM indole-3-butyric acid, which developed a mean of 5.2 roots per shoot. Rooted healthy shoots could be transplanted to small pots, with an 80% survival rate. Addition of 2,4-dichlorophenoxyacetic acid (2.4-D) to BA-supplemented medium was obligatory to develop somatic embryos. MS medium containing 2.26 μM 2,4-D and 4.44 μM BA induced a mean of 44.8 somatic embryos per proximal explant. The embryos passed through distinct stages of embryogenesis, namely globular, heart, torpedo, and early cotyledonary. The embryos (88%) underwent maturation on half-strength MS medium with 2.89 μM gibberellic acid (GA₃), and its subsequent transfer on half-strength MS basal medium in light conditions facilitated 80% conversion of embryos to plantlets. Direct shoots or embryos were originated from the mesophyll cells. Somatic embryo development was concurrent with the independent origin of vasculature in the bulbous basal portion. The survival rate of embryo-derived plants was 90%.     

Somatic embryogenesis of <Emphasis Type="Italic">Gentiana cruciata</Emphasis> (L.): Histological and ultrastructural changes in seedling hypocotyl explant

Summary Structure and ultrastructure changes that occurred during tissue culture of upper explants of hypocotyl (adjacent to cotyledons) of 10-d-old seedlings of Gentiana cruciata were studied. The explants were cultured on Murashige and Skoog induction medium supplemented with 1.0 mg l⁻¹ dicamba +0.1 mg l⁻¹ naphthaleneacetic acid +2.0 mg l⁻¹ benzyladenine +80.0 mg l⁻¹ adenine sulfate. The initial response of the explant and callus formation were ultrastructurally analyzed during the first 11 d of culture. After 6–8 wk, various methods were employed to collect evidence of indirect somatic embryogenesis. After 48 h of culture, the earliest cell response was cell division of epidermis and primary cortex. There were numerous disturbances of karyo- and cytokinesis, leading to formation of multinuclear cells. With time, the divisions ceased, and cortex cells underwent strong expansion, vacuolization and degradation. About the 6th day of culture, callus tissue proliferated and the initial divisions of vascular cylinder cells were observed. Their division appeared normal. Cells originating from that tissue were small, weakly vacuolated, with dense cytoplasm containing active-looking cell organelles. Numerous divisions occurred in the vascular cylinder, which led to its expansion and the formation of embryogenic callus tissue. During the 6–8th wk of culture, in the proximal end of the explant, masses of somatic embryos were formed from outer parts of intensively proliferating tissue.     

Micropropagation of chinese redbud (<Emphasis Type="Italic">Cercis yunnanensis</Emphasis>) through axillary bud breaking and induction of adventitious shoots from leaf pieces

Summary Factors affecting in vitro shoot production and regeneration of Cercis yunnanensis Hu et Cheng were investigated by comparing various growth regulators and explant types. For optimum shoot production from axillary buds, Murashige and Skoog (MS) media containing 6-benzyladenine, either alone or in combination with a low concentration of thidiazuron, resulted in the greatest number of shoots formed per explant (>3). Explants (2 mm long) containing one axillary bud placed in directcontact with the medium yielded the most shoots per bud (1.6) when grown on growth regulator-free medium. Root formation on 70–80% of shoot explants was accomplished using either indole-3-butyric acid or α-naphthaleneacetic acid in the medium, with significantly more roots formed on explants possessing and apical bud than those without the bud. Direct shoot organogenesis from leaf explants occurred on MS medium containing 10–30 μM thidiazuron, with up to 42% of leaf explants producing shoots.     

Histogenesis and morphogenesis of epidermoid metaplasia in hamster tracheal organ explant culture

The formation of epidermoid metaplasia was studied in hamster tracheal epithelium in long-term serum-free organ explant culture. Explants were cultured up to 5 weeks in CMRL 1066 with antibiotics and amphotericin B. At 3 weeks there were rare small foci of epidermoid metaplasia and they became larger and more numerous at 4 and 5 weeks. Three dimensional reconstructions from serial sections demonstrated that the small deep-seated foci were discrete and did not reach the epithelial surface, whereas the larger foci were expansive and involved the full thickness of the explant epithelium. Each small focus consisted of a few swollen electron-lucent basal cells attached to the basal lamina, covered by a layer of flattened electron-dense secretory cells which formed a tight-fitting cap over the basal cells. The altered secretory cells displayed moderately well-developed rough endoplasmic reticulum and tonofilament bundles. During the early stages of formation the deep-seated metaplastic foci were completely covered by a layer of normal appearing cuboidal to low-columnar secretory and ciliated cells. Expansion of the metaplastic foci occurred by addition of flattened, electron-dense secretory cells to the cap so that multiple layers of altered secretory cells covered a core of basal cells, analogous to the structure of an onion. The secretory cells became cornified and with time the foci broke through the columnar mucociliary surface layer. In well-advanced foci, the uppermost cornified squames (metaplastic secretory cells) exfoliated into the tracheal lumen. The study emphasizes similarities and differences between the morphogenesis and histogenesis of epidermoid metaplasia in vivo and in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)     

Explant organ culture of hamster alimentary tract epithelium

Adult Syrian Golden hamster alimentary tract maintained as explants in organ culture was studied using the model system for hamster pancreas described by Resau et al. (1983a). Explants of esophagus, stomach, duodenum and colon were maintained in organ culture on Gelfoam® sponge rafts in a high-oxygen atmosphere with serum-supplemented CMRL-1066 medium. All of the tissues were observed to show evidence of sublethal acute cell injury during the first several days of culture. Subsequently, the epithelial tissues recovered from this injury, repopulated the denuded areas of the explants and replicated within the sponge matrix. Explants were maintained in a differentiated state for 30+ days and sampled for morphology to examine the process of cell injury, repair, differentiation and replication which occurs in mucosal epithelia. The percentage of basement membrane covered by epithelia in the explants from various tissues was compared to the level of LDH in the media to reveal the relationship between viability determined by biochemical and by morphological methods. Restitution of the mucosal surface occurred in all of the explants. We conclude that adequate populations of replicating cells are maintained within the epithelium of the hamster alimentary tract tissues in vitro so that restitution can occur through migration and subsequent differentiation of the epithelial cells within the mucosa of the explants.Abbreviations 4F-1G 4% formaldehyde 1% glutaraldehyde fixative - LDH lactate dehydrogenase - OsO₄ osmium tetroxide - PAS/PLH periodic acid, periodic acid Shiff lead hematoxylin stain     

Genotypic response of cowpea Vigna unguiculata (L.) to in vitro regeneration from cotyledon explants

Summary A plant regeneration system applicable to 17 cowpea genotypes was developed. Cotyledons were initiated on 1/3 MS medium containing 15 to 35 mg N⁶-benzyladenine (BA) per 1 (66.6 to 155.3 μM) for 5 to 15 d. For shoot regeneration, the explants were transferred to a medium containing 1 mg BA per 1 (4.4 μM). Within 1 wk, shoot formation was visible at the proximal end of the cotyledons. Regeneration percentages (1% to 11%) and the numbers of shoots (4 to 12 per explant) were significantly influenced by genotype. Culture duration and BA concentration in the initiation stage significantly affected regeneration capacity. Explants initiated on media containing 15 mg BA per 1 for 5 d resulted in the highest percentage of explants capable of regeneration. Conversely, the highest number of shoots was obtained from explants initiated on media supplemented with 35 mg BA per 1. Whole plants were obtained on a plant growth regulator-free medium. To our knowledge, this is the first report of plant regeneration from U.S. commercial cowpea cultivars and breeding lines. This system is adaptable to diverse cowpea genotypes and will facilitate cowpea genetic transformation. Published with the approval of the Director of the Arkansas Agricultural Experiment Station.     

Efficient plant regeneration of garlic (Allium Sativum L.) by root-tip culture

Summary Root apices from in vitro cultured garlic (Allium sativum) cloves of cvs. ABEN and GT96-1 were used as axenic explants for organogenic callus production and plant regeneration experiments. Explants cultured in media based on those of Chu and co-workers (N6) or Murashige and Skoog (MS) could induce organogenic callus after 8 wk culture in darkness. Both media were supplemented with 2,4-dichlorophenoxyacetic acid (2.2–4.5 μM), alone or combined with 6-furfurylaminopurine (kinetin, 2.3–4.6 μM). Shoots started to grow 3 wk after culturing in the presence of light and the addition to culture media of 4.4 μM N⁶-benzyladenine. Plants capable of producing microbulbs regenerated 6 wk later. Up to 170 plants g⁻¹ FW callus were obtained when culturing was initiated in MS medium supplemented with 4.6 μM kinetin and 4.5 μM 2,4-dichlorophenoxyacetic acid.     

Functional differentiation in mouse mammary gland epithelium is attained through DNA synthesis,inconsequent of mitosis

Virgin mouse mammary gland in explant culture will differentiate and synthesize casein and α-lactalbumin when insulin, hydrocortisone, and prolactin (IFPRL) are present in the culture medium. Explants whose DNA synthesis has been blocked differentiate cytologically, mobilize lipid, synthesize RNA, and incorporate ³H-amino acids into proteins to the same extent as unblocked tissue. Nevertheless, casein synthesis as measured by immunoprecipitation with casein-specific antiserum remains at the zero-time level in blocked explants while unblocked explants produce casein at five- to eightfold greater levels. Electrophoretic analysis of immunoprecipitated radioactive proteins showed that the IFPRL-treated virgin tissue made all four size classes of mouse casein. Immunoperoxidase studies of explants revealed that the number of mammary epithelial cells positive for casein was 2–8% in blocked and 24–31% in unblocked, in good agreement with the radioimmunoprecipitation results. Immunoelectron microscopy demonstrated the accumulation of casein within the cisternae of the granular endoplasmic reticulum and in Golgi vacuoles in the unblocked epithelial cells. Similar accumulation did not occur in blocked cultures despite the secretory appearance of the cells. Autoradiographic analysis of blocked and unblocked explants, incubated in the presence of IFPRL and [³H]thymidine for 72 hr, showed that 53–57% of the epithelial cells synthesized DNA in unblocked explants, whereas only 2% incorporated the label in the presence of cytosine arabinoside. When explants were incubated with IFPRL and various concentrations of colchicine, only 5–6% of the epithelial cells were found to enter mitosis. Since cell duplication cannot account for the severalfold increase in casein-producing cells in the unblocked explants, the results suggest that the requirement for DNA synthesis in this system may involve either polyploid cells or the augmentation of specific sequences necessary for the facilitation of terminal differentiation. Similar requirements for DNA synthesis were not observed in mammary explants from pregnant and primiparous (but nonpregnant) mice.     

Direct shoot regeneration from lamina explants of two commercial cut flower cultivars of Anthurium andraeanum Hort.

Summary Direct plant regeneration from flowering plant-derived lamina explants of Anthurium andraeanum Hort. cultivars Tinora Red and Senator was established on modified Murashige and Skoog (MS) medium. Cultivar difference, stage of source lamina and the position of explant in lamina, medium pH, and type of growth regulators significantly influenced direct plant regeneration. Explants from young brown lamina were superior to young green lamina. The half-strength MS medium containing 1.11 μM N⁶-benzyladenine (BA), 1.14 μM indole-3-acetic acid, and 0.46 μM kinetin at pH 5.5 was most effective for induction of shoot formation. Explants from the proximal end of the source lamina gave rise to a higher number of shoots compared to the mid and distal regions. Cultivar Tinora Red was more regenerative than Senator in terms of number of shoots per explant. The use of a lower BA concentration (0.44 μM) was essential for callus-free shoot multiplication during subculture. Regenerated shoots could be induced to form roots on half-strength MS medium supplemented with 0.54 μM α-naphthaleneacetic acid and 0.93 μM kinetin. More than 300 plantlets of each eultivar were harvested from a single source lamina within 200 d of culture. Most plantlets (95%) survived after acclimation in soil.     

Growth and differentiation of fetal rat small intestinal epithelium in tissue culture: Relationship to fetal age

Explants of small intestinal tissue have been cultured from fetal and young rats (from 13-day fetuses to 3-week-old rats). Growth of morphologically typical epithelial cells was obtained from explants of tissue from 14–20 day fetuses. Optimal growth was obtained using tissue from 17-day fetuses with outgrowth from the explant being observed 1-day after explant. Eighty per cent of explants developed epithelial growth by 11 days in culture. Initially, the epithelial outgrowth showed no morphological evidence of differentiation but after 5–10 days in culture differentiation into goblet or elongated cells with alkaline phosphatase activity occurred. Cells with brush borders and goblet cells were identified using electron microscopy. No differentiation occurred if the explant was removed even though growth continued.It was very difficult to culture tissue from fetuses older than 20 days' gestation, and when small intestine of 18–20-day fetuses was divided into two parts (proximal and distal) and cultured separately, growth of epithelial cells from explants of the proximal segment was less successful than that of the distal segment, indicating that the growth ability of these epithelial cells in vitro was closely related to tissue maturation in vivo. In contrast to the apparent relationship between fetal age and successful growth of intestinal epithelial cells, squamous epithelial cells of the esophagus could be grown from explants of 14-day fetus through newborn and 3-week-old rats.     

Developmental,tissue culture,and genotypic factors affecting plant regeneration from shoot apical meristems of germinated <Emphasis Type="Italic">Zea mays</Emphasis> L. Seedlings

Summary Culture media, environmental and genotypic factors affecting regeneration from multi-shoot cultures derived from corn seedling apical explants were investigated. The frequency of shoot regeneration was highes for seedlings that were 4–5 cm in length. Flow cytometry was used to show that the most responsive culturs contained a high proportion of cells in the G1 phase. Proline in the multi-shoot induction medium (MSI) significantly increased the shoot induction frequency. Continuous low light (30–40 μEm⁻²s⁻¹) stimulated multi-shoot induction. The highest number of multi-shoots developed in medium containing 4 gl⁻¹ proline, 2 mgl⁻¹ (8.8 μM) 6-benzylaminopurine (BA), and 1 mgl⁻¹ (4.5 μM) 2,4-dichlorophenoxyacetic acid (2,4-D). Multi-shoots were induced in this culture system from 44 of 45 corn genotypes and approximately 70% of the genotypes exhibited a high to moderate response (greater than 20 shoots per explant in 4 wk of culture). This culture procedure is an efficient and widely applicable method for corn regeneration that may be a useful target for transformation.     

In Vitro CuIture of the Tropical Sponge <Emphasis Type="Italic">Axinella corrugata</Emphasis> (Demospongiae): Effect of Food Cell Concentration on Growth,Clearance Rate,and Biosynthesis of Stevensine

In vitro culture is one possible method for supplying sponge metabolites for pharmaceutical applications, but appropriate feeding regimens that maximize both growth and metabolite biosynthesis are largely unknown. According to the natural concentration (NC) of cells 1 to 50 µm in size that are available to wild Axinella corrugata, we fed explants a multispecific diet of bacteria, microalgae, and yeast at 4 different concentrations: 1NC, 3NC, 5NC, and 5+1NC (the last consisted of 5 NC of bacteria and 1 NC of microalgae and yeast). Explants fed a 3NC diet had the best culture response, growing on average from 8.5 g to 10.3 g in 8 weeks, and showing a 110% increase in concentration (milligrams per gram of dry weight) of the antitumor compound stevensine. Stevensine production in 3NC explants, representing the total milligrams of metabolite per explant, increased by 157% over the study. Explants fed at 1NC had relatively stable weights, indicating that the diet met metabolic costs only. Explants fed at the two highest concentrations lost weight after 4 weeks, possibly because long-term high cell concentration blocked their aquiferous system, reducing their ability to feed efficiently. Stevensine production in explants fed the 1NC, 5NC, or 5+1NC diets were similar, and varied little from the initial amount. A separate experiment showed that the clearance rate for A. corrugata is similar between the examined food types and cell concentrations over 5 hours, averaging 766 ml h^–1 g DW^–1.Overall, this study demonstrates that relatively small changes in food abundance can greatly affect both sponge growth and metabolite biosynthesis. The good growth and increased production of the target metabolite stevensine for A. corrugata explants fed a 3NC diet suggests that in vitro culture is a viable method of supplying some sponge metabolites.     

Regeneration of plantlets from leaf and petiole explants of Pelargonium x hortorum

Summary The in vitro plant regeneration potential of vegetatively propagated geraniums (Pelargonium x hortorum) has been investigated. Using various combinations of growth regulators and a choice of different explants, a regeneration protocol has been developed to raise in vitro plantlets from young petiole and leaf explants from three different cultivars of geraniums. In all three cultivars, very young petiole explants exhibited a higher regeneration potential as compared with leaf explants. Regeneration efficiencies were found to be highly dependent on the cultivar, with cv. Samba showing the highest regeneration potential, followed by cvs. Yours Truly and then Sincerity. Samba also showed the highest number of shoots from both the petiole [57 shoot buds per petiole explant in the presence of 3 μM zeatin and 1 μM indole-3-acetic acid (IAA) and leaf explants (43 shoots per leaf explant with 10 μM zeatin and 2 μM IAA). Shoot buds transferred to Murashige and Skoog (MS) medium supplemented with 0.44 μM N⁶-benzyladenine and 0.11 μM IAA grew vigorously and attained 1–2 cm in length in 3–4 wk. These shoots rooted with 100% efficiency on MS basal medium, and plants developed that showed normal growth and flowering under greenhouse conditions.     

Regulation of the synthesis of mucin glycoproteins in swine trachea explants

Summary Swine tracheal epithelium has been cultured as explants in a chemically defined medium for periods of up to 2 wk. The viability of the explants was shown by the preservation of the ultrastructural features of cells in the epithelial layer and by the active incorporation of radioactive glucosamine and sulfate into secreted mucin glycoproteins. The rate of secretion of mucin glycoprotein was about 0.035 mg per cm² per d. After initial 24 h lag period was shown to be due to the equilibration of intracellular mucin glycoprotein pools with radioactive precursors. The rate of secretion of glycoprotein showed a linear dependence on the area of the explant, and maximal incorporation was observed at 200 μM glucosamine. A higher concentration of³⁵SO₄, 1000 μM, was required for maximal incorporation of the precursor. Insulin at 0.1 to 1 μg/ml increased the rate of secretion twofold, whereas 0.1 to 100 μg/ml of hydrocortisone and 0.1 to 100 μg/ml of epinephrine significantly decreased the rate of secretion. Vitamin A had little or no effect of normal trachea explants at low concentrations, and, at higher concentrations, 10⁻⁵ M, it decreased the secretion of mucin glycoproteins. Vitamin A, at a concentration of 10⁻⁹ M, increased the rate of synthesis of glycoprotein at least fourfold in trachea explants from vitamin A-deficient rats. Mucus secretions collected from the surface of swine trachea and from the culture medium of trachea explants were purified. The mucus was solubilized by reduction and carboxymethylation, and the high molecular weight mucin glycoproteins were purified by chromatography on Sepharose CL-6B columns under dissociating conditions in 2M guanidine HCl. The mucin glycoproteins purified from swine trachea and from the culture medium of trachea explants were virtually indistingushable. They showed the same properties when examined by gel electrophoresis and immunoprecipitation. The purified glycoproteins contained about 25% protein, and serine, threonine, and proline were the principal amino acids present. More than 80% of the carbohydride chains in both samples were released by treatment with alkaline borohydride. Nearly the same molar ratio ofN-acetylgalactosamine,N-acetylglucosamine, galactose, fucose, sulfate, and sialic acid was found in both preparations. This investigation was supported by U.S. Public Health Service Grants HL 20868, HL 24688, and HL 24718 from the National Heart, Lung and Blood Institute, Bethesda, MD, and AM 28187 from the National Institute of Arthritis, Diabetes and Digestive and Kidney Diseases, Bethesda, MD.