Implantation of a gelatin-sponge as a model for effector recruitment

Summary Nylon-wool-eluted lymphocytes, isolated from a site of tumor rejection in Balb/c mice expressing concomitant tumor immunity, were examined for their ability to inhibit the growth of the EMT6 tumor. Tumor growth inhibition was monitored after co-inoculation of lymphocytes and tumor cells into naive mice in a Winn-type adoptive-transfer assay. A pre-implanted gelatin sponge was employed to capture the tumor-infiltrating lymphocytes. Mice harboring primary tumors were implanted 8 days later with gelatin sponges. The pre-implanted sponges were then inoculated with a secondary tumor challenge 2 days after implantation of the sponge (i.e. 10 days after primary tumor challenge). On day 17 (7 days after secondary tumor challenge), the immune sponges were retrieved, digested in collagenase and the T lymphocytes were isolated using a nylon-wool column. Blank sponges (lacking tumor cells), obtained from primary-tumor-bearing or non-tumor-bearing animals, were included for comparison. The data showed that T lymphocytes isolated from immune sponges inhibited tumor growth while T lymphocytes recovered from blank sponges did not. At an effector:target (E:T) ratio of 10:1 the lymphocytes from the immune sponges were able to prevent totally the growth of tumors in all cases (100% inhibition). This ability was reduced (60% inhibition) at an E:T ratio of 1:1. Comparison of the antitumor activites of the immune-sponge-derived cells with those from the spleen of the same animal revealed the superiority of the former. Depletion of immune-sponge-derived cells with anti-Thy1.2, anti-Lyt2.2 or anti-L3T4 and complement resulted in a marked decrease in tumor-inhibitory activity. These results indicate that T lymphocytes, expressing Thy1.2, Lyt2.2 or L3T4 antigens, are involved in conferring protection to Balb/c mice against the EMT6 tumor.     

In vivo liberation of silver ions from metallic silver surfaces

In vivo liberation of electrically charged silver atoms/silver ions from metallic silver pellets, silver grids and silver threads placed in the brain, skin and abdominal cavity was proved by way of the histochemical technique autometallography (AMG). A bio-film or “dissolution membrane” inserted between the metallic surface and macrophages was recognized on the surface of the implanted silver after a short period of time. Bio-released silver ions bound in silver–sulphur nanocrystals were traced within the first 24 h in the “dissolution membrane” and the “dissolucytotic” macrophages. In animals that had survived 10 days or more, silver nanocrystals were detected both extra- and intracellularly in places far away from the implant including regional lymph nodes, liver, kidneys and the central nervous system (CNS). The accumulated silver was always confined to lysosome-like organelles. Dissolucytotic silver was extracellularly related to collagen fibrils and fibres in connective tissue and basement membranes. Our study demonstrates that (1) the number of bio-released silver ions depends on the size of the surface of the implanted silver, (2) the spread of silver ions throughout the body takes place primarily not only through the vascular system, but also by retrograde axonal transport. It is concluded that implantation of silver or silver-plated devices is not recommendable.     

Spheroid formation and expression of liver-specific functions of human hepatocellular carcinoma-derived FLC-4 cells cultured in lactose-silk fibroin conjugate sponges

This study presents a hepatic tissue engineering application of three-dimensional (3D) porous sponges composed of lactose-silk fibroin (SF) conjugates (Lac-CY-SF) bearing β-galactose residues, hepatocyte-specific ligands. Lac-CY-SF sponges were prepared by freeze-drying, followed by immersion in a series of methanol aqueous solutions. Lac-CY-SF sponges showed heterogeneous pore structure with round pores about 100 μm in diameter and elongated pores 250-450 μm in length and 100-150 μm in breadth. To employ a 3D Lac-CY-SF culture system, human hepatocellular carcinoma-derived FLC-4 cells were seeded in Lac-CY-SF sponges and cultured up to 3 weeks. FLC-4 cell culture in collagen and SF sponges was also performed for comparison with the cell response to Lac-CY-SF sponges. Within 5 days of culture, FLC-4 cells cultured in Lac-CY-SF sponges, as well as the cells cultured in collagen sponges, formed multicellular spheroids with diameters from 30 to 100 μm more efficiently than did the cells cultured in SF sponges. After 3 weeks of culture, WST-1 viability assay revealed that shrinkage suppression of Lac-CY-SF sponges enabled the maintenance of viable FLC-4 cells for a long time, while the shrinkage and disintegration of collagen sponges prevented the maintenance of the cells. FLC-4 cells cultured in Lac-CY-SF sponges exhibited greater elevation of albumin secretion and sustained a higher albumin level compared with the cells cultured in collagen and SF sponges during the 3 week cultivation period. FLC-4 cells cultured in Lac-CY-SF sponges for 3 weeks expressed genes related to liver-specific functions such as transferrin and HNF-4α. On the other hand, the cells cultured in collagen and SF sponges for 3 weeks did not express these genes. These results indicated the very promising properties of Lac-CY-SF sponges as a scaffold for long-term culture of functional FLC-4 cells to study drug toxicity and hepatocyte metabolism in humans and develop a bioartificial liver model.     

Growth of the sponge Pseudosuberites (aff.) andrewsi in a closed system

Explants of the Indo-Pacific sponge Pseudosuberites aff. andrewsi were fed with the microalgae Chlorella sorokiniana and Rhodomonas sp. It was microscopically observed that these algae were ingested and digested by the sponge cells, suggesting that they were consumed by the sponges. The algae were further used for two growth experiments with five explants of P. aff. andrewsi and four explants of P. andrewsi. Growth was measured as the increase in projected body area. The explants showed considerable growth (up to 730% in 54 days for P. aff. andrewsi and up to 680% in 22 days for P. andrewsi), which is much higher than previously reported growth rates for sponges. Growth started after a stationary phase of 5–20 days in which the projected body area did not increase. The growth of P. aff. andrewsi appeared to be linear and was inhibited at the end of the experiment. Two explants of P. andrewsi showed exponential growth instead of linear growth. Hence, no general statements about the growth kinetics of these sponges can be made at this time. However, the high growth rates found in this study suggest a promising future for cultivation of sponges in closed systems.     

Bioluminescent mammalian cells grown in sponge matrices to monitor immune rejection

The growth and bioluminescence of cells seeded in collagen and gelatin sponge matrices were compared in vitro under different conditions, and immune rejection was quantified and visualized directly in situ based on loss of bioluminescence activity. Mammalian cells expressing a Renilla luciferase complementary deoxyribonucleic acid (cDNA) were used to seed collagen and gelatin sponge matrices soaked in either polylysine or gelatin to determine optimal growth conditions in vitro. The sponges were incubated in tissue culture plates for 3 weeks and received 2, 9, or 15 injections of coelenterazine. Measurements of bioluminescence activity indicated that gelatin sponges soaked in gelatin emitted the highest levels of light emission, multiple injections of coelenterazine did not affect light emission significantly, and light emission from live cells grown in sponges could be measured qualitatively but not quantitatively. Histologic analysis of sponge matrices cultured in vitro showed that cells grew best in gelatin matrices. Visualization of subcutaneously implanted sponges in mice showed accelerated loss of light emission in immunocompetent BALB/c mice compared with immunodeficient BALB/c-scid mice, which was associated with increased cell infiltration. Our results indicate that sponge matrices carrying bioluminescent mammalian cells are a valid model system to study immune rejection in situ.     

Exocytotic secretion of toxins from macrophages infected with Escherichia coli O157

This study examined whether macrophages are involved in the development of pathogenicity in Shiga-like toxin (SLT)-producing enterohemorrhagic Escherichia coil (EHEC) O157:H7. Macrophages were infected with the bacteria, after which the macrophage culture medium showed a clear increase in toxicity in rats in vivo as well as in rat aortic endothelial cells in vitro. The increased toxicity resulted mainly from a rapid increase in the concentrations of SLT type I (SLT-I) and type II (SLT-II) and partly from an increase in concentrations of the proinflammatory cytokines, tumor necrosis factor alpha (TNFalpha) and interleukin-1 (IL-1), in the culture medium. Most of the EHEC O157 added to the macrophage culture were quickly incorporated to form phagosomes, which then fused with lysosomes to become phagolysosomes. During this intracellular digestion process, the EHEC O157 remained alive for about 15 min, and continued synthesizing and secreting the toxins SLT-1 and SLT-II. The bacteria were then killed and digested in the phagolysosomes with significant amounts of the toxins retained. Subsequently, the contents of the phagolysosomes were exocytotically secreted from the macrophage cell membrane into the surrounding culture medium. Such a sequence of events in macrophages may occur in vivo, suggesting the active involvement of macrophages in the rapid increase in pathogenicity, such as seen in the onset of hemolytic-uremic syndrome (HUS) in patients infected with EHEC O157. The exocytotic secretion is considered to be one of the most basic cellular functions in macrophages.     

Digestion of Histoplasma capsulatum yeasts by human macrophages.

The strategies used by Histoplasma capsulatum yeasts to survive and multiply within human macrophages (M phi) are unknown. To better understand these strategies we studied the intracellular fate of viable vs heat-killed (HK) yeasts in human monocyte-derived M phi. Initial studies demonstrated that phagolysosome fusion was present in M phi ingesting either viable or HK yeasts. Viable yeasts multiplied within M phi phagolysosomes, whereas M phi completely digested intracellular FITC-labeled HK yeasts within 24 h after ingestion. This observation was confirmed by electron microscopy. M phi that had ingested colloidal gold-labeled HK yeasts contained gold particles but no visible yeasts at 24 h. Digestion of HK yeasts was evident as early as 4 h after phagocytosis, and was complete by 24 h. M phi digestion of HK yeasts was blocked completely when M phi were cultured for 24 h in the presence of chloroquine. In M phi simultaneously ingesting both viable and HK yeasts, viable yeasts multiplied, but HK yeasts were digested within the same cell. M phi that had ingested viable yeasts digested them completely when M phi were cultured for 24 h in the presence of cycloheximide or amphotericin B. Coculture of infected M phi with nystatin or ketoconazole resulted in inhibition of growth, but the yeasts were not digested. These data indicate that: 1), HK Hc yeasts are easily digested by preformed M phi lysosomal hydrolases; 2), viable Hc yeasts survive and multiply within M phi phagolysosomes, but the yeasts do not secrete a factor(s) that affects the ability of other phagolysosomes within the same M phi to digest killed yeasts; and 3), inhibition of yeast protein synthesis or cell wall biosynthesis is sufficient to render viable yeasts susceptible to digestion by human M phi.     

Comparison of cytokine and nitric oxide induction in murine macrophages between whole cell and enzymatically digested Bifidobacterium sp. obtained from monogastric animals

The principal objective of this study was to compare the effects of whole and hydrolyzed cells (bifidobacteria) treated with gastrointestinal digestive enzymes on the activation of cloned macrophages. Seven different strains of Bifidobacterium obtained from swine, chickens, and rats, were digested with pepsin followed by pancreatin and the precipitate (insoluble fraction) and supernatant (soluble fraction) obtained via centrifugation. The RAW 264.7 murine macrophages were incubated with either whole cells, the precipitate, or supernatant at various concentrations. Pronounced increases in the levels of nitric oxide (NO), interleukin (IL)-1beta, IL-6, IL-12, and tumor necrosis factor (TNF)-alpha were observed in the whole cells and precipitates, but these effects were less profound in the supernatants. The precipitates also evidenced a slight, but significant, inductive activity for NO and all tested cytokines, with the exception of TNF-alpha in the macrophage model as compared with the whole cells. By way of contrast, TNF-alpha production when cultured with whole cells (100 ng/ml) resulted in marked increases as compared with what was observed with the precipitates. The results of this study indicated, for the first time, that digested Bifidobacterium sp. can induce the production of NO and several cytokines in RAW 264.7 murine macrophage cells. In the current study, it was demonstrated that Bifidobacterium strains treated with digestive enzymes, as compared with whole cells, are capable of stimulating the induction of macrophage mediators, which reflects that they may be able to modulate the gastrointestinal immune functions of the host.     

Induction of cytokines and nitric oxide in murine macrophages stimulated with enzymatically digested lactobacillus strains

Based on observations that lactic acid bacteria have the ability to activate macrophages, we assessed the potential effects of eight different Lactobacillus strains treated with gastrointestinal enzymes on the production of nitric oxide and various cytokines in macrophages. RAW 264.7 murine macrophage cells were cultured with either precipitates or supernatants of Lactobacillus strains digested with pepsin followed by pancreatin. The increased production of nitric oxide and interleukin (IL)-1beta, IL-6, IL-12 and tumour necrosis factor (TNF)-alpha were observed when cultured with precipitates, and this effect was largely strain-dependent. In contrast, the exposure of RAW 264.7 cells to supernatants produced weaker or nearly undetectable effects in comparison to the effects of exposure to precipitates. The induction of nitric oxide appeared to be unaffected. These results demonstrate that nitric oxide and cytokines were effectively induced when the bacterial precipitate was treated with macrophages. The results of the present study also indicate that Lactobacillus strains treated with digestive enzymes are capable of stimulating the production of nitric oxide and cytokines in macrophages, which may modulate the gastrointestinal immune function of the host when it is given as a feed additive.     

Electron microscopic studies on the interaction of rat Kupffer cells and Plasmodium berghei sporozoites

The interactions between Plasmodium berghei sporozoites and Kupffer cells in rat liver were studied by transmission electron microscopy. Between 10 and 45 min after inoculation, sporozoites were found in the process of entering Kupffer cells and inside phagolysosomes. The sporozoites entered the Kupffer cells by phagocytosis as determined by the presence of pseudopods and local accumulations of aggregated microfilaments and the resulting exclusion of other organelles in the phagocyte cytoplasm beneath the attached parasite. Sporozoites were taken up either with their anterior end first, or backwards. Scanning electron microscopy of in vitro sporozoite Kupffer cell interaction confirmed these observations. It was concluded that sporozoites are taken up in a normal phagocytic way by the Kupffer cells, regardless of their initial place of contact or position. Thirty min after inoculation sporozoites found in phagolysosomes were still morphologically intact but after 45 min we could encounter completely digested sporozoites.     

Ultrastructural localization and chemical binding of silver ions in human organotypic skin cultures

Organotypic cultures of human breast skin incubated with silver bandage or treated with silver sulfadiazine accumulated silver in epithelial cells and in macrophages, fibroblasts and collagen fibrils and fibres of underlying connective tissue. Ultrastructurally, the accumulated silver was found in lysosome-like vesicles of the different cells and evenly spread along collagen structures. Apoptotic nuclei were present but few. Autometallographic amplification of 2D-PAGE gels revealed that glutathione S-transferase and glutathion detoxify silver ions in the epidermal cell by binding them in silver–sulphur nanocrystals. Thus, the cytotoxic effect of silver ions seems to be muted by silver ions by being: (1) taken up by undamaged cells, neutralised by glutathione (GSH) and accumulated in lysosomal vesicles, (2) bound extracellularly to SH-groups of the collagen fibres.     

Influence of macrophages and macrophage-modified collagen I on the adhesion and proliferation of vascular smooth muscle cells in culture

The adhesion, proliferation and morphology of rat vascular smooth muscle cells (VSMC) in cocultures with macrophages or in cultures on type I collagen modified by activated macrophages were evaluated. In the first set of experiments, rat alveolar macrophages were added to 24-hour-old VSMC cultures. Between days 2 and 5 after VSMC seeding, the population densities and doubling times of cells were similar in both VSMC-macrophage and pure VSMC cultures. However, from day 5, the cocultures proliferated about two times more rapidly and on day 7, they reached higher cell population density by 40%. The pure macrophage cultures did not proliferate. In the second set of experiments, rat alveolar macrophages were activated by non-toxic TiO2 dust to produce reactive oxygen species and incubated for 120 min with collagen I. The collagen was then adsorbed on plastic culture dishes and seeded with VSMC. The collagen exposed for 10 min only, the unmodified collagen and pure culture dishes were used as control growth supports. On all four tested substrates, the number of initially adhered cells was similar, but on the collagen modified for 120 min, the cells were less spread. Moreover, on day 2 to 3 after seeding, some cells on this collagen became vacuolated and detached spontaneously from the growth support. The remaining VSMC, however, rapidly proliferated, so that on day 9, the cell population density on 120-min-modified collagen was similar as on both control collagens and significantly higher compared to that on uncoated dishes. Our results suggest that 1. The delayed growth-stimulating effect of macrophages on VSMC-macrophage mixed population is probably due to autocrine production of mitogens by both cell types rather than due to an acute effect of short-living oxygen radicals released from macrophages immediately after adding to VSMC cultures. 2. The effect of collagen I exposed to activated macrophages for 120 min is slightly cytotoxic, which could, however, stimulate a release of mitogens from damaged as well as surviving VSMC.     

Epithelial macrophages secrete a deactivating factor for superoxide release

The release of superoxide anion (O2-) by inflammatory macrophages, multinucleated giant cells, and epithelioid cells, obtained by the insertion of round glass coverslips into the subcutaneous tissue of mice, was investigated. O2- was shown to be spontaneously released by cells on the surface of glass coverslips implanted up to 7 days, but not by cells obtained 14 or 21 days after coverslip implantation. The former showed increased O2- release when stimulated by phorbol myristate acetate, whereas cells harvested after 14 or 21 days implantation did not. The induction of delayed type hypersensitivity around coverslips implanted for 5 days increased spontaneous O2- release by these cells by 40%. On the other hand, when the same protocol was used with coverslips implanted for 14 days, O2- release was not detected. These results were viewed in regard to the composition of the cell population at each time point. When coverslips were removed after 14 days of implantation and the cells incubated for 30 minutes in vitro, the medium so conditioned inhibited O2- release by cells of 5 day old preparations. This indicates the release by cells on the longer term coverslips of a substance that inhibits O2- production by cells of coverslips implanted for 5 days only. This inhibitory activity could be suppressed by treating the conditioned medium with proteases. The factor was, however, heat stable and exerted its effects even when the test cells were exposed to phorbol myristate acetate.     

Influence of different biodegradable carriers on the in vivo behavior of human adipose precursor cells

The correction of soft-tissue defects presents a challenge in plastic and reconstructive surgery. The implantation of isolated and culture-expanded adipose precursor cells is a solution to this problem because these cells differentiate into adipocytes when implanted in vivo. Appropriate scaffolds are needed in soft-tissue engineering to allow the differentiation of precursor cells. The optimal carrier needs to be defined.In this study, human preadipocytes were isolated and cultured. Three different carrier materials were seeded with 106 preadipocytes each and implanted in 42 nude mice. Sponges and nonwoven carriers based on hyaluronic acid modified by esterification (HYAFF 11) were compared with collagen sponges. Scaffolds without cells served as negative controls in the same animal. After 3 and 8 weeks, the grafts were explanted. Macroscopic appearance, weight, thickness, microscopy, immunohistochemistry, and TEM (scaffold structure, cellularity, penetration depth of the seeded cells, vascularization) were assessed and evaluated for differences in scaffold-cell interactions.Preadipocytes differentiated earlier in vitro when attached to HYAFF 11 scaffolds than to other carrier materials. Macroscopically, all preadipocyte constructs were yellowish and well vascularized, and the controls were white and avascular. Vessel formation was more pronounced around mature adipocytes. Microscopically, HYAFF 11 constructs showed a higher cell density than collagen constructs. The pores of the sponges contained more differentiated adipocytes than the nonwoven carriers, whereas the undifferentiated preadipocytes were more numerous in the nonwoven material. Penetration of adipose precursor cells was deeper and more homogeneous in HYAFF 11 scaffolds. Electron microscopy demonstrated well-differentiated adipocytes and large amounts of extracellular matrix in HYAFF 11 sponges.HYAFF 11 sponges supported the expansion and differentiation of the adipose precursor cells. This carrier is superior to the nonwoven carrier with regard to adipocyte differentiation and superior to the collagen sponge with regard to cellularity. This is a promising method for the reconstruction of soft-tissue defects. Modifications of the scaffold (larger pore size and coating with adipogenic factors) will be examined in further experiments.     

The influence of biosynthetic human growth hormone on biomechanical properties and collagen formation in granulation tissue

Biomechanical properties and collagen formation in the granulation tissue of cellulose sponges, implanted subcutaneously in male rats for 7, 10 and 16 days, were tested after treatment with biosynthetic human growth hormone given subcutaneously in a dose of 0.5 mg/kg body weight/day. At each implantation period, one group started hormone treatment at the day of implantation and another group started hormone treatment 7 days prior to implantation. After 7 days of implantation, increases in maximum stress (36 per cent), relative failure energy (48 per cent) and strain at maximum stress (25 per cent) were found when treatment was started 7 days prior to implantation. After 10 days of implantation an increase in relative failure energy (60 per cent) was found when treatment was started 7 days prior to implantation. No differences were found after 7 and 10 days of implantation when treatment was started at the day of implantation. After 16 days of implantation, no influence on mechanical strength was found in any of the hormone treated groups. The collagen deposition after 7, 10 and 16 days did not differ in any of the hormone treated groups compared to controls.     

Hepatocyte behavior within three-dimensional porous alginate scaffolds

A potential approach to facilitate the performance of implanted hepatocytes is to enable their aggregation and re-expression of their differentiated function prior to implantation. Here we examined the behavior of freshly isolated rat adult hepatocytes seeded within a novel three-dimensional (3-D) scaffold based on alginate. The attractive features of this scaffold include a highly porous structure (sponge-like) with interconnecting pores, and pore sizes with diameters of 100-150 microm. Due to their hydrophilic nature, seeding hepatocytes onto the alginate sponges was efficient. DNA measurements showed that the total cell number within the sponges did not change over 2 weeks, indicating that hepatocytes do not proliferate under these culture conditions. Nearly all seeded cells maintained viability, according to the MTT assay. Within 24 h post-seeding, small clusters of viable cells, were seen scattered within the sponge. More than 90% of the seeded cells participated in the aggregation; the high efficiency is attributed to the non-adherent nature of alginate. The spheroids had smooth boundaries and by day 4 in culture reached an average diameter of 100 microm, which is at the same magnitude of the sponge pore size. The cells appeared to synthesize fibronectin which was deposited on the spheroids. No laminin or collagen type IV were detected in the deposit. The 3-D arrangement of hepatocytes within the alginate sponges promoted their functional expression; within a week the cells secreted the maximal albumin secretion rate of 60 microg albumin/10(6) cells/day. Urea secretion rate did not depend on cell aggregation and was similar to that obtained when hepatocytes were cultured on collagen type I coated dishes (100 microg/10(6) cells/day). Our studies show that alginate sponges can provide a conducive environment to facilitate the performance of cultured hepatocytes by enhancing their aggregation.     

支架材料对棕色脂肪源性干细胞向起搏细胞诱导分化的影响

目的观察不同三维支架材料对棕色脂肪来源干细胞（BADSCs）诱导分化成起搏细胞的效果,为构建生物起搏器提供实验依据。 方法将培养7 d的原代BADSCs分别种植到胶原海绵、明胶海绵和透明质酸水凝胶3种不同的材料中,在不同时间用光镜和扫描电镜观察细胞-支架复合体中细胞形态学的变化,免疫荧光染色检测心肌细胞、起搏细胞相关蛋白的表达。采用单因素方差分析。 结果细胞在3种支架上均能存活、增殖,LIVE/DEAD检测显示,培养3 d的胶原海绵、明胶海绵和透明质酸水凝胶3种细胞-支架复合物死细胞率分别为（46.35±1.50）%、（47.00±1.60）%和（1.76±1.08）%,其中细胞在透明质酸水凝胶中死亡率最低,并且细胞-透明质酸水凝胶复合物可自发性地搏动,三组比较差异具有统计学意义（F = 37.56,P < 0.05）。培养至2周时,胶原海绵、明胶海绵和透明质酸水凝胶中Connexin45细胞阳性率分别为（10.67±1.25）%、（13.67±1.25）%和（21.00±1.60）%,差异有统计学意义（F = 9.435,P < 0.01）,HCN2细胞阳性率分别为（11.00±1.60）%、（14.00±2.16）%和（34.33±3.68）%,差异有统计学意义（F = 17.52,P < 0.01）,HCN4细胞阳性率分别为（18.67±2.05）%、（13.00±1.60）%和（66.00±2.94）%,差异有统计学意义（F = 27.96,P < 0.01）,Sr细胞阳性率分别为（13.00±1.63）%、（14.33±1.24）%和（75.33±3.30）%,差异有统计学意义（F = 36.40,P < 0.01）,水凝胶中Connexin45、HCN2、HCN4和Sr的细胞阳性率均高于胶原海绵和明胶海绵,差异均具有统计学意义（P < 0.05）。 结论BADSCs在胶原海绵、明胶海绵和透明质酸水凝胶中均能很好地生长和分化,但透明质酸水凝胶更适用于组织工程化起搏器的构建。     

Silica particles cause NADPH oxidase–independent ROS generation and transient phagolysosomal leakage

Chronic inhalation of silica particles causes lung fibrosis and silicosis. Silica taken up by alveolar macrophages causes phagolysosomal membrane damage and leakage of lysosomal material into the cytoplasm to initiate apoptosis. We investigated the role of reactive oxygen species (ROS) in this membrane damage by studying the spatiotemporal generation of ROS. In macrophages, ROS generated by NADPH oxidase 2 (NOX2) was detected in phagolysosomes containing either silica particles or nontoxic latex particles. ROS was only detected in the cytoplasm of cells treated with silica and appeared in parallel with an increase in phagosomal ROS, as well as several hours later associated with mitochondrial production of ROS late in apoptosis. Pharmacological inhibition of NOX activity did not prevent silica-induced phagolysosomal leakage but delayed it. In Cos7 cells, which do not express NOX2, ROS was detected in silica-containing phagolysosomes that leaked. ROS was not detected in phagolysosomes containing latex particles. Leakage of silica-containing phagolysosomes in both cell types was transient, and after resealing of the membrane, endolysosomal fusion continued. These results demonstrate that silica particles can generate phagosomal ROS independent of NOX activity, and we propose that this silica-generated ROS can cause phagolysosomal leakage to initiate apoptosis.     

Synthesis of Silver Proteinates for Neurological Staining

Soluble derivatives of the AgNO₃ precipitates of various split protein products were prepared by dissolving the precipitate in a 30-40% aqueous solution of pharmaceutical peptone (Cudahy). The split proteins used included pepsin, trypsin and papain digests of albumin, globulin, gelatin, casein, protamine, and tissue proteins from heart, liver and brain; also, an Escherichia coli digest of casein, and commercial products: Amigen (Mead), casein hydrolysate (Squibb) and pharmaceutical peptone (Cudahy). Staining reactions of the silver derivatives were tested on mammalian nervous tissue. The objective of finding a silver-protein compound that stained axis cylinders selectively was attained only with redissolved silver precipitates of pharmaceutical peptone and bacterially digested casein. It was concluded that the manner of degrading a protein prior to combining it with silver was the most important factor in determining the subsequent staining reaction.     

Reassembly of somatic cells and testicular organogenesis in vitro

Testicular organogenesis in vitro requires an environment allowing a reassembly of testicular cell types. Previous in vitro studies using male murine germ cells cultured in a defined three-dimensional environment demonstrated tubulogenesis and differentiation into spermatozoa. Combining scaffolds as artificial culture substrates with testicular cell culture, we analysed the colonization of collagen sponges by rat testicular cells focusing on cell survival and reassembly of tubule-like-structures in vitro. Isolated testicular cells obtained from juvenile Sprague Dawley and eGFP transgenic rats were cultured on collagen sponges (DMEM high glucose + Glutamax, 35 °C, 5% CO₂ with or without gonadotropins). Live cell imaging revealed the colonization of cells across the entire scaffold for up to 35 days. After two days, histology showed cell clusters attached to the collagen fibres and displaying signs of tubulogenesis. Clusters consisted mainly of Sertoli and peritubular cells which surrounded some undifferentiated spermatogonia. Flow cytometry confirmed lack of differentiation as no haploid cells were detected. Leydig cell activity was detected by a rise of testosterone after gonadotropin stimulation. Our approach provides a novel method which is in particular suitable to follow the somatic testicular cells in vitro an issue of growing importance for the analysis of germ line independent failure of spermatogenesis.