Hepatocytic Cells Form Bile Duct-like Structures within a Three-Dimensional Collagen Gel Matrix

It has been suggested that hepatocytes have the ability to form bile ductal structures during normal development and in various pathological conditions of the liver. In the present study, we attempted to establish anin vitromodel of ductal morphogenesis of hepatocytic cells by combining an aggregate culture and a type I collagen gel culture. When spheroidal aggregates of rat or mouse primary hepatocytes were embedded within the collagen gel matrix and then cultured with a medium containing a fibroblast-conditioned medium, the aggregates extended many dendritic processes composed of a trabecular arrangement of cells. Dendritic morphogenesis was also seen in embedded aggregates of immortal liver epithelial cell lines, which spontaneously emerged during long-term cultures of mouse primary hepatocytes. A similar morphogenesis was induced by the presence of insulin in the medium. Although epidermal growth factor (EGF) and hepatocyte growth factor (HGF) showed only a small effect on the morphogenesis of most of the hepatocytic cells when used alone, these factors, especially EGF, enhanced the morphogenetic effect of insulin. Electron microscopical observations revealed luminal structures lined by microvilli within these dendritic processes, indicating ductal differentiation. Immunocytochemically, the dendritic processes were positive for cytokeratin 19, a marker for bile duct cells. On the other hand, an H-ras-transformed mouse liver epithelial cell line and rat hepatocellular carcinoma cell lines did not demonstrate the organized morphogenesis. Our results indicate that hepatocytic cells can produce bile duct-like structures in the presence of the type I collagenous matrix and soluble morphogenetic factors.     

Change in growth kinetics of hybridoma cells entrapped in collagen gel affected by alkaline supply

The growth yields for glucose and glutamine of murine hybridoma cells entrapped in collagen gel particles were examined during the growth phase. The immobilized hybridoma cells were cultivated in a fluidized bed fermenter where the medium was circulating to supply oxygen separately. Procedures to supply an alkaline solution for adjusting the pH level strongly affected the growth yields. A direct supply of the alkaline solution to the cultivation system reduced both the growth yields for glucose and glutamine, probably due to a local increase in pH level. On the other hand, when fresh medium in which the pH was adjusted to around 8.5 was added to the cultivation system, the growth yields were unchanged even at the same pH level as when direct alkaline supply was used. These results suggest that an indirect alkaline supply could be recommended to ajust the pH level when using medium-circulating-fermenters.     

Serum-free medium conditions for steroidogenesis of bovine follicular thecal cells cultured on collagen gel matrix

Summary Thecal cells isolated from bovine ovarian follicles were cultured with a serum-free basal medium or a serum-free complete medium in the presence or absence of collagen gel matrix, and their cellular proliferation and steroidogenesis were compared with those of cells cultured with a serum-containing medium. The cells cultured with the serum-free basal medium produced larger amounts of progesterone, androstenedione, and estradiol than the cells cultured with the serum-containing medium, but no appreciable cell proliferation was observed in the serum-free medium. Response of thecal cells to 8 bromo-cAMP, a steroidogenic agent, varied according to the type of steroid production examined and the type of culture medium used. In a cultivation period of 4 d, progesterone production was stimulated about five-fold by 8 bromo-cAMP in the serum-free complete medium on collagen gel matrix and in the serum-free basal medium without collagen matrix, whereas androstenedione production was stimulated about three- to fourfold in the serum-free complete medium on collagen gel matrix and in the serum-free basal medium with or without collagen matrix. Estradiol production, however, was significantly suppressed by 8 bromo-cAMP in the serum-free complete medium on collagen gel matrix and also in the serum-containing medium. Thus, among the conditions examined, the most suitable primary culture media for steroidogenesis of thecal cells were the serum-free media, especially serum-free complete medium on collagen gel matrix.     

Identification of molecules in leech extracellular matrix that promote neurite outgrowth

The molecular composition of the substrate is of critical importance for neurite extension by isolated identified leech nerve cells in culture. One substrate upon which rapid growth occurs in defined medium is a cell-free extract of extracellular matrix (ECM) that surrounds the leech central nervous system (CNS). Here we report the co-purification of neurite-promoting activity with a laminin-like molecule. High molecular mass proteins from leech ECM purified by gel filtration exhibited increased specific activity for promoting neurite outgrowth. The most active fractions contained three major polypeptide bands of ca. 340, 250 and 220 kDa. Electron microscopy of rotary-shadowed samples showed three macromolecules, one of which had a cross-shaped structure similar to vertebrate laminin. A second six-armed molecule resembled vertebrate tenascin and a third rod-like molecule resembled vertebrate collagen type IV. The most active fractions contained a protein of ca. 1 MDa on non-reducing gels with disulphide-linked subunits of ca. 220 and 340 kDa, with cross-shaped laminin-like molecules. We conclude that a laminin-like molecule represents a major neurite promoting component present in leech ECM. The experiments represent a first step in determining the location of leech laminin within the CNS and assessing its role in neurite outgrowth during development and regeneration.     

Promotion of retinal neurite outgrowth by substratum-bound fibronectin

We have examined conditions under which aggregates of embryonic chick neural retina will extend neurities in vitro. Trypsin-dispersed cells from 7-day embryonic chick neural retina were aggregated in rotation culture for 8 hr and maintained in serum-free medium on a variety of standard culture substrate. Aggregates extend few neurites on untreated plastic, glass, or collagen substrata. However, pretreatment of these substrata with human plasma fibronectin enhances their capacity to support retinal neurite outgrowth. Aggregates cultured on fibronectin-treated substrata extend long, radially oriented neurites within 36 hr in vitro. The morphology of these neurites is distinct from that seen when aggregates are cultured on polylysine-treated substrata. In the latter case, neurites are highly branched and grow concentrically around the aggregate perimeter. Addition of fibronectin to polylysine-treated substrata stimulates radial neurite outgrowth. Promotion of neurite outgrowth is dependent on the amount of fibronectin bound to the culture substratum and on the pH at which binding occurs. The requirements for fibronectin-mediated neurite outgrowth are more stringent than those previously reported for fibroblast attachment and spreading.     

Growth, Nitrogen Fixation, and Spectral Attenuation in Cultivated Trichodesmium Species

Physiological studies of Trichodesmium species have been hindered by difficulties in maintaining actively growing, nitrogen-fixing cultures. Previous cultivation successes have not been widely duplicated. We present here a simple modified seawater medium and handling techniques which have been used to maintain actively growing Trichodesmium thiebautii in laboratory culture for over 1 year. The cultured population, isolated from coastal Atlantic waters, has a growth rate of 0.23 division day^-1 and exhibits light-dependent nitrogen fixation during exponential growth. Various morphologies, including solitary trichomes, and aggregates (spherical puffs and fusiform tufts) are present during growth. Spectral and scalar irradiance were measured within naturally occurring (coastal Atlantic) aggregates with small (diameter, 50 to 70 μm) spherical fiber-optic sensors. In contrast to naturally occurring puffs, cultivated Trichodesmium aggregates exhibited spectral properties consistent with low-light adaptation. Cultivated puff-type aggregates were also examined by using oxygen microelectrodes. The simple medium and approach used for cultivation should be easily reproducible and amenable to further manipulations and modifications useful for physiological studies of Trichodesmium spp. in culture.     

Cell aggregation and neurite growth in gels of extracellular matrix molecules

Components of the extracellular matrix are believed to guide both nerve cells and neurites to their targets during embryogenesis and, therefore, might be useful for controlling regeneration of nervous tissue in adults. To study the influence of extracellular conditions on neurite outgrowth and cell motility, PC12 cells were suspended in three-dimensional gels containing (i) collagen (0.4 to 2 mg/mL), (ii) collagen (1 mg/mL) with added fibronectin or laminin (1 to 100 mug/mL), and (iii) agarose (7 mg/mL) with added collagen (0.001 to 1 mg/mL). Neurite outgrwoth was stimulated with nerve growth factor (NGF) and both the extent of neurite outgrowth ad cell aggregation were quantitated over 10 to 12 days in culture. The extent of neurite outgrowth was greatest at the lowest collagen concentration tested (0.4 mg/mL) and decreased with increasing concentration. The addition of laminin or fibronectin altered the extent of neurite outgrowth in collagen gels, but the differences were small. Although no neurite growth was observed in pure agarose gels, considerable neurite outgrowth occurred with the addition of small amounts (>/=0.01 mg/mL) of collagen. Mean aggregate size increased more quickly in gels with lower concentrations of collagen. For cells in 1.0 mg/mL collagen, a four- to fivefold increase in aggregate volume was seen between days 2 and 10 o the culture period, whereas the increase in DNA content during this same period was less than twofold, suggesting that the cells were aggregating, not multiplying. These results suggest that the composition of the matrix supporting nerve cells has a significant effect on both neurite outgrowth and cell motility. (c) 1994 John Wiley & Sons, Inc.     

Serum proteins enhance aggregate formation of dissociated fetal rat brain cells in an aggregating culture

Summary Dissociated fetal rat brain cells (Day 14.5 of gestation) reaggregated into small cell clusters and formed large aggregates in a medium supplemented with serum or dialyzed serum in an aggregating culture. In contrast, only small aggregates were produced in a serum-free medium. The present results indicated that albumin, fetuin, transferrin, and {ie1031-1}-antitrypsin enhanced the aggregate formation. Small aggregates produced in a serum-free medium elongated neurites when they were cultured within a collagen gel matrix. Total DNA per flask was almost the same in small and large aggregates. Thus, these serum proteins may well play an important role in the adhesion of small cell clusters and cause the formation of large aggregates in this short-term aggregating culture.     

A low-serum medium with BSA and ferrous sulfate for the production of tissue plasminogen activator by human embryo lung cells

A low-serum medium containing bovine serum albumin (BSA) was investigated with respect to the growth of and tissue plasminogen activator (TPA) production by human embryo lung (HEL) cells on microcarrier beads and in collagen gel. BSA and ferrous sulfate were chosen as substitutes for fetal calf serum (FCS) through a simple screening test involving many substances. The growth promoting effects of BSA and ferrous sulfate were independent of each other and from the FCS concentration. Though BSA inhibited initial cell attachment to the carrier surface, it did promote the growth of cells attached to microcarrier beads. Cells grown on microcarrier beads in the low-serum medium containing BSA, ferrous sulfate and 3% FCS produced an amount of TPA similar to that produced by ones grown in the 10% FCS medium. Although cells on the dish surface did not grow at all on serum-free media containing BSA and ferrous sulfate, cells in the collagen gel were able to grow slightly on the serum-free medium. Cells grown on the low-serum medium in collagen gel produced more TPA over a long period than those in the microcarrier beads using the low-serum medium. The optimum concentration of proteose peptone in the TPA production medium for the collagen gel culture was similar to that for the dish surface culture.     

Extracellular matrix organization modulates fibroblast growth and growth factor responsiveness

To learn more about the relationship between extracellular matrix organization, cell shape, and cell growth control, we studied DNA synthesis by fibroblasts in collagen gels that were either attached to culture dishes or floating in culture medium during gel contraction. After 4 days of contraction, the collagen density (initially 1.5 mg/ml) reached 22 mg/ml in attached gels and 55 mg/ml in floating gels. After contraction, attached collagen gels were well organized; collagen fibrils were aligned in the plane of cell spreading; and fibroblasts had an elongated, bipolar morphology. Floating collagen gels, however, were unorganized; collagen fibrils were arranged randomly; and fibroblasts had a stellate morphology. DNA synthesis by fibroblasts in contracted collagen gels was suppressed if the gels were floating in medium but not if the gels were attached, and inhibition was independent of the extent of gel contraction. Therefore, growth of fibroblasts in contracted collagen gels could be regulated by differences in extracellular matrix organization and cell shape independently of extracellular matrix density. We also compared the responses of fibroblasts in contracted collagen gels and monolayer culture to peptide growth factors including fibroblast growth factor, platelet-derived growth factor, transforming growth factor-beta, and interleukin 1. Cells in floating collagen gels were generally unresponsive to any of the growth factors. Cells in attached collagen gels and monolayer culture were affected similarly by fibroblast growth factor but not by the others. Our results indicate that extracellular matrix organization influenced not only cell growth, but also fibroblast responsiveness to peptide growth factors.     

Function of discoidin domain receptor I in HGF-induced branching tubulogenesis of MDCK cells in collagen gel

Discoidin domain receptor I (DDR1) is a receptor tyrosine kinase (RTK) and serves as the receptor for collagen in addition to integrins. It has been well established that Madin-Darby canine kidney (MDCK) cells develop branching tubules in three-dimensional collagen gel in the presence of hepatocyte growth factor (HGF). MDCK cells normally express DDR1. However, the function of DDR1 in this in vitro model system has not been understood. We established stable-transfected MDCK cells harboring DDR1a, DDR1b, or dominant-negative (DN) DDR1 and cultured these transfectants in collagen gel with HGF (2 ng/ml) for the studies of branching tubule morphogenesis. Whether DDR1 played roles in cell growth, apoptosis, and migration was examined. We found that cells over-expressing DDR1a and DDR1b developed shorter tubules with fewer branches in collagen gel. In contrast, DN DDR1 over-expressed cells could not form tubule structure, but instead developed mostly cell aggregates with multiple long extended processes. Over-expression of DDR1a and 1b in MDCK cells resulted in reduction of cell growth when cells were cultured on collagen gel-coated dishes or collagen gel. On the other hand, DN DDR1 enhanced cell death on collagen gel, suggesting that DDR1 is involved in maintenance of cell survival. Moreover, over-expression of DDR1a and DDR1b markedly reduced collagen-induced migration capability, whereas DN DDR1 enhanced it, suggesting that DDR1a and 1b may serve as a negative regulator for alpha2beta1 integrin during migration on collagen substratum. These results indicate that DDR1 plays important role in regulation of HGF-induced branching tubulogenesis by modulating cell proliferation, survival, and cell migration.     

Growth cone interactions with a glial cell line from embryonic Xenopus retina

We have isolated a nonneuronal cell line from Xenopus retinal neuroepithelium (XR1 cell line). On the basis of immunocytochemical characterization using monoclonal antibodies generated in our laboratory as well as several other glial-specific antibodies, we have established that the XR1 cells are derived from embryonic astroglia. A monolayer of XR1 cells serves as an excellent substrate upon which embryonic retinal explants attach and elaborate neurites. This neurite outgrowth promoting activity appears not to be secreted into the medium, as medium conditioned by XR1 cells is ineffective in promoting outgrowth. Cell-free substrates were prepared to examine whether outgrowth promoting activity is also associated with the XR1 extracellular matrix (ECM). Substrates derived from XR1 cells grown on collagen are still capable of promoting outgrowth following osmotic shock and chemical extraction. This activity does not appear to be associated with laminin or fibronectin. Scanning electron microscopy was used to examine growth cones of retinal axons on XR1 cells and other substrates that supported neurite outgrowth. Growth cones and neurites growing on a monolayer of XR1 cells, or on collagen conditioned by XR1 cells, closely resemble the growth cones of retinal ganglion cells in vivo. A polyclonal antiserum (NOB1) generated against XR1 cells effectively and specifically inhibits neurite outgrowth on XR1-conditioned collagen. We therefore propose that neurite outgrowth promoting factors produced by these cells are associated with the extracellular matrix and may be glial specific.     

Growth kinetics and differentiation in vitro of normal human uroepithelial cells on collagen gel substrates in defined medium

Conditions have been described for the selective growth, serial cultivation, and postconfluent morphological differentiation in vitro of normal adult human uroepithelial cells (HUC) on collagen gel substrates in a serum-free medium without the deliberate addition of undefined components and without a requirement for a polypeptide growth factor. The culture medium used (F12) was the standard Ham's F12 medium (0.3 mM calcium) supplemented with 1 microgram/ml hydrocortisone, 5 micrograms/ml transferrin, 10 micrograms/ml insulin, 0.1 mM nonessential amino acids, 2.0 mM L-glutamine, 2.7 mg/ml D-glucose, 10(-4) M ethanolamine or 10(-4) M phosphoethanolamine, and 5 X 10(-8) M selenium. HUC grown in F12 on Type I collagen gel substrates had a generation time of 33 hours and could be serially passed 3-5 times during log phase of growth (20-25 population doublings) before spontaneously senescing. Transmission electron microscopy showed that cultures of HUC grown entirely in serum-free F12 on collagen gel substrates morphologically differentiate postconfluence to resemble in some respects the stratified uroepithelium in vivo, although neither a basal lamina nor an asymmetric unit membrane develop. The addition of epidermal growth factor (EGF) to the F12 did not improve either the growth rate or the lifespan in vitro of HUC. In contrast, the addition of fetal bovine serum (FBS) to F12 was mitogenic to HUC in a dose-dependent manner in the concentration range 0.01-1.00% (4-400 micrograms/ml protein), but higher concentrations of FBS did not improve growth further. The generation time of HUC in 1% FBS-F12 decreased to 21 hours, and the potential population doublings in vitro increased to 31-36. Small amounts (140 micrograms/ml) of bovine pituitary extract (BPE) were similarly mitogenic to HUC in F12. Altering the calcium concentration in the standard Ham's F12 medium (0.3 mM), however, did not improve the growth of HUC in serum-containing or serum-free medium. Higher calcium concentrations (0.30-0.90 mM) were neither mitogenic nor inhibitory to HUC growth, but resulted in decreasing viability of HUC in growing cultures, suggesting an accelerating rate of cellular differentiation. In contrast HUC in low calcium, serum-free F12 (0.1 mM) failed to stratify and morphologically differentiate even in postconfluent cultures. This failure of HUC to differentiate in low calcium F12 medium did not confer a long-term growth advantage.(ABSTRACT TRUNCATED AT 400 WORDS)     

Differentiation of PC12 cells in three-dimensional collagen sponges with micropatterned nerve growth factor

Micropatterning of biological cues is important for the guided formation of neuronal outgrowth and neuronal differentiation. Nerve growth factor (NGF) was micropatterned in a three-dimensional collagen sponges by using micropatterned ice lines that were composed of collagen and NGF. The micropatterned ice lines were prepared by a dispersing machine. PC12 cells were cultured in the NGF-micropatterned collagen sponges and showed micropatterned neurite outgrowth. The neurite outgrowth followed the micropattern of NGF with more neurite outgrowth in the collagen/NGF lines than in the regions between the collagen/NGF lines. The micropattern of the NGF and the neurite network of the PC12 cells can be manipulated by controlling the micropattern of the NGF. The three-dimensional porous scaffolds prepared by this method will have a potential application for the regeneration and repair of the nervous system.     

Nerve growth-promoting activity in the chick embryo: quantitative aspects

Nerve growth-promoting activity in organ extracts from the chick embryo was titrated using ganglia explanted to a collagen gel. Fibre outgrowth responses evoked in ciliary, sympathetic and spinal ganglia were well correlated. At embryonic day 8, 66% of the activity was localized in the yolk sac, 19% to the chorioallantois and the remaining 15% was widespread in the embryo. At day 18, total activity had increased 27-fold, the carcass now accounting for 90%. In parallel, the embryo extracts also promoted survival and neurite extension in dissociated ganglionic neurons seeded at low density in the gel. It is suggested that the observed effects are due to one active substance widely distributed in the embryo and increasing in amount during development. The substance has a molecular weight of over 10,000 and is distinct from nerve growth factor (NGF). A function of it may be to regulate axonal growth and survival of autonomic and sensory neurons.     

Morphogenic activity of fibroblast growth factor-2 on primary neural precursor cells in three-dimensional culture

Mouse neural precursor cells (NPC) were dissociated from fetal heads at the 10th day of gestation. When clumps of NPC were cultured in collagen gel, they grew and reorganized neural tube-like structures in medium containing fetal calf serum at 10% and supplemented with insulin, transferrin, cholera toxin and selenite. However, dissociated NPC died when they were cultured in collagen gel at low density in the same medium. Addition of fibroblast growth factor-2 (FGF-2) to this culture stimulated growth of NPC and formation of neural tube-like structures. The requirement for FGF-2 disappeared in high seeding density culture: they grew and formed neural tube-like structures without FGF-2. The structures formed in collagen gel were immunohistochemically positive against anti-FGF-2 antibody. The results show that the three-dimensional culture system provides a useful tool to study the roles of FGF-2 in morphogenesis of the central nervous system.     

Chondrogenesis and hypertrophy in response to aggregate behaviors of human mesenchymal stem cells on a dendrimer-immobilized surface

Objectives

To investigate the behaviors of aggregates of human mesenchymal stem cells (hMSCs) on chondrogenesis and chondrocyte hypertrophy using spatiotemporal expression patterns of chondrogenic (type II collagen) and hypertrophic (type X collagen) markers during chondrogenesis.

Results

hMSCs were cultured on either a polystyrene surface or polyamidoamine dendrimer surface with a fifth generation (G5) dendron structure in chondrogenic medium and growth medium. At day 7, cell aggregates without stress fibers formed on the G5 surface and triggered differentiation of hMSCs toward the chondrogenic fate, as indicated by type II collagen being observed while type X collagen was undetectable. In contrast, immunostaining of hMSCs cultured on polystyrene, which exhibited abundant stress fibers and did not form aggregates, revealed no evidence of either type II and or type X collagen. At day 21, the morphological changes of the cell aggregates formed on the G5 surface were suppressed as a result of stress fiber formation. Type II collagen was observed throughout the aggregates whereas type X collagen was detected only at the basal side of the aggregates. Change of cell aggregate behaviors derived from G5 surface alone regulated chondrogenesis and hypotrophy, and this was enhanced by chondrogenic medium.

Conclusions

Incubation of hMSCs affects the expression of type II and X collagens via effects on cell aggregate behavior and stress fiber formation.

     

微重力条件下心肌细胞在聚羟基乙酸纤维支架上的三维固定化培养

以 1d龄Wistar乳鼠的心室肌组织为心肌细胞的来源 ,采用胰蛋白酶消化及细胞差速贴壁分离心肌细胞 ,以未经修饰和经鼠尾胶原溶液浸泡修饰的聚羟基乙酸 (polyglycolicacid ,PGA)纤维支架作为心肌细胞体外三维 (3D)固定化培养的支架 ,比较心肌细胞在静置培养体系及微重力培养体系下的生长、形态和收缩状况。心肌细胞在未经处理的PGA纤维支架 3D固定化培养时 ,心肌细胞在其上的分布不均匀 ,大部分心肌相互连接形成球状聚集体 ;PGA纤维支架经鼠尾胶原溶液浸泡处理后 ,心肌细胞在其上的分布较为均匀 ,细胞形态多呈梭形或不规则状 ,心肌细胞自律性搏动的幅度加大。在模拟微重力培养条件下 ,心肌细胞在经鼠尾胶原溶液浸泡修饰的PGA纤维支架上的分布更为均匀 ,心肌细胞形成具有自律性同步收缩特性、面积约为 15mm2 的类组织样 3D结构     

Simple and efficient method for isolation and cultivation of endoscopically obtained human colonocytes

Few comparative and validated reports exist on the isolation and growth of colonoscopically obtained colonic epithelium. The aim of this study was to develop and validate a simple method for the cultivation of colonoscopically obtained colonocytes. Forty patients, who underwent routine colonoscopy and where the diagnosis of irritable bowel syndrome was later reached, were included. Seven colon biopsies were taken and incubated at varying time periods of 10-120 min and temperatures of 4-37 degrees C in a chelating buffer. The epithelium was then harvested and cultivated under three different conditions: 1) on a collagen coating, 2) embedded in a collagen gel, or 3) embedded in a gel put on a porous well insert. The effect of conditioned medium (CM), insulin, transferrin, selenium, and the oxygen content was assessed. Viability was tested by the metabolic dimethylthiazol-diphenyl-tetrazolium bromide assay, by flowcytometry, by phase contrast microscopy, and by transmission electron microscopy. Incubation at 21 degrees C for 75 min gave an optimal yield of 3 x 10(6) (2.0-3.8 x 10(6)) viable epithelial cells in intact crypts per seven biopsies. Embedding of crypts in a collagen gel put on a porous membrane was superior to the other methods applied [P < 0.003; median viability 71% (62-100%) compared with preculture values] after 24 h, which was a 160% increase in viability compared with coat-cultivated cells. CM had similar viability supporting effects to FCS. Other supplements had no effects. A simple method is presented, which makes cultivation of colonocytes obtained at endoscopy possible for up to 72 h.     

Factors affecting neurite outgrowth of occipital cortical explants

The effects of various substrata including laminin, collagen gel, collagen I, and human amniotic basement membrane on neurite outgrowth of occipital cortical and diencephalic explants were studied. The results showed that the extent and pattern of growing neurites of cortical explants varied considerably depending on the substrata used. While an elaborated network of growing neurites was observed when cortical explants were plated on laminin, the most extensive neurite outgrowth was observed when collagen gel was used as the substratum. In contrast, diencephalic explants did not grow on most of the substrata. The significance of the findings are discussed.