Effect of Conditioned Media from Chicken and Turkey Intestinal Cell Cultures on Invasion by Sporozoites of Three Species of Avian Coccidia

The effect of conditioned media from cultures of turkey and chicken intestinal cells on cellular invasion by sporozoites of avian Eimeria species was examined in vitro. Media conditioned by the growth of cells from the ceca, mid-intestine (area of the yolk stalk diverticulum), and duodenal loop were examined for their ability to enhance invasion. Conditioned medium from cultures of turkey cecal cells significantly enhanced invasion by the turkey coccidia Eimeria adenoeides, by 2.4-fold, and E. meleagrimitis , by 2.2-fold, as compared with invasion in the presence of control medium. Conditioned medium from mid-intestinal cell cultures enhanced invasion by the two coccidial species by 2.0- and 2.1-fold, respectively. The enhancement occurred with conditioned media from early (1) as well as later (11) passages of cells. This suggests that the enhancing factor was produced by fibroblast-like cells, the predominant cell type at both early and late passages, and not by epithelial-like cells that had disappeared by the first or second passage. Additionally, conditioned media from cultures of chicken cecal and duodenal loop cells significantly enhanced invasion by the turkey cecal coccidium, E. adenoeides , (1.7- and 1.6-fold, respectively). This was less enhancement than was caused by the turkey cell conditioned media. Heat treatment (56° C for 45 min) of conditioned media failed to alter the effect on invasion. Neither the turkey or chicken cecal cell media nor conditioned media from any other chicken intestinal cell cultures enhanced invasion by E. tenella , the chicken cecal coccidium. Although morphologically dissimilar when they were first plated, the gross appearance and growth of the turkey and chicken cells when conditioned media was collected was comparable.     

Reduced Invasion of Cultured Cells Pretreated With A Monoclonal Antibody Elicited Against Refractile Body Antigens of Avian Coccidial Sporozoites

The effect of a monoclonal antibody (1209-C2) elicited against sporozoite refractile-body antigen on invasion of cultured baby hamster kidney cells by avian Eimeria species was examined in vitro. Pretreatment of sporozoites with 1209-C2 for 45 min before inoculation into cultures or simultaneous introduction of sporozoites and 1209-C2 into cultures had no significant effect on invasion. However, pretreatment of cultures for 45 min with 1209-C2 (also with media from other cloned 1209 cell lines) significantly inhibited invasion by sporozoites of Eimeria tenella and E. adenoeides. Pretreatment of cultures with 2 unrelated monoclonal antibodies with the same isotype as 1209-C2 did not inhibit invasion by E. tenella. There was a significant correlation between time of exposure of the cultures to 1209-C2 and invasion (r = -0.80924; p = 0.0001), with inhibition of invasion occurring after 20 min exposure, but not after 10 min. There was also a significant correlation between the titer of 1209-C2 and invasion (r = 0.62291; p = 0.0305). Monoclonal antibody 1209-C2 cross-reacted with epitopes of baby hamster kidney cells by both immunofluorescence and Western blot. The fluorescent labeling of the cells differed according to the fixative that was used. In formalin-fixed cultures labeled with 1209-C2, fluorescent foci were distributed over the entire cell; after methanol fixation, 1209-C2 reacted with only discrete foci in the nucleus. On Western blots of sporozoites, 1209-C2 reacted with antigens having molecular sizes of approximately 8, 17, 23, 30, and 45-60 kDa, and with several minor bands. On baby hamster kidney cells, the antibody reacted primarily with bands of approximately 30, 45-60, and slightly with other bands. The data suggest that interactions among similar molecules in the sporozoites and host cells may play a role in cellular invasion.     

Invasion of different cell types by sporozoites of Eimeria species and effects of monoclonal antibody 1209-C2 on invasion of cells by sporozoites of several apicomplexan parasites

Sporozoites of avian Eimeria species differed markedly in their ability to invade cells in vitro. Invasion by E. tenella and E. adenoeides was significantly greater in baby hamster kidney (BHK) and chicken cecal cell (CC) cultures than in primary chicken (PCK) or turkey kidney (PTK) cell cultures. Moreover, invasion of BHK cell cultures by E. adenoeides was significantly greater than that of other Eimeria species, and invasion by E. acervulina sporozoites was significantly lower. Monoclonal antibody 1209-C2 (MAb 1209-C2) reacted by immunofluorescent labeling (IFA) with refractile bodies of sporozoites of 5 species of Eimeria and Caryospora bigenetica, but not with sporozoites of Toxoplasma gondii, Hammondia hammondi, or Cryptosporidium parvum, which have no refractile bodies. The MAb also cross-reacted with formalin-fixed BHK, CC, turkey cecal (TC) cells, and PTK. Pretreatment of BHK cells with MAb 1209-C2 significantly reduced invasion of the cells by sporozoites of E. tenella, E. acervulina, E. meleagrimitis, and C. bigenetica, but did not alter invasion by T. gondii, C. parvum, or H. hammondia. Apparently, reactivity of MAB 1209-C2 with the sporozoites was required for inhibition of invasion despite the fact that the inhibition resulted from pre-treatment of the host cell. Conversely, although MAb 1209-C2 also reacted moderately with PTK and TC cells, pre-treatment of these cell cultures with the MAb did not inhibit invasion by either MAB 1209-C2-reactive or -nonreactive parasites. Collectively, the data indicated that refractile body antigens of sporozoites of Eimeria and Caryospora, which are recognized by MAb 1209-C2, may function in cellular invasion, but also suggest that cellular invasion is probably not mediated by interactions between the conserved epitopes in sporozoites and cultured host cells that are recognized by the MAb.     

Materials released into culture medium by normal and oncogenic virus-transformed mammalian cells.

Materials released into culture medium by transformed and untransformed baby hamster kidney cells labelled with glucosamine, sulfate, fucose or leucine were characterized. Some of the components could also be labelled by iodination of intact cells, indicating their surface origin. Analysis on gradient polyacrylamide sodium lauryl sulfate gels demonstrated that a group of high apparent molecular weight glucosamine-labelled components were more abundant in materials released from Rous sarcoma virus-transformed baby hamster kidney cells than from baby hamster kidney cells or polyoma virus-transformed baby hamster kidney cells. The relative rates of release of glucosamine-labelled components from transformed and untransformed cells were similar except that the transformed baby hamster kidney cells released some large molecular weight components slightly more rapidly than baby hamster kidney cells. Treatment of labelled medium materials with testicular hyaluronidase removed much glucosamine label from the materials but did not affect the amounts of other labels. After treatment with hyaluronidase, the patterns of labelled conditioned media from both transformed and untransformed baby hamster kidney cells were qualitatively and quantitatively very similar, suggesting that the differences seen in untreated labelled conditioned media were due to the presence of hyaluronidase-sensitive materials associated with medium materials rather than to actual differences in glycoproteins.     

Materials released into culture medium by normal and oncogenic virus-transformed mammalian cells

Materials released into culture medium by transformed and untransformed baby hamster kidney cells labelled with glucosamine, sulfate, fucose or leucine were characterized. Some of the components could also be labelled by iodination of intact cells, indicating their surface origin. Analysis on gradient polyacrylamide sodium lauryl sulfate gels demonstrated that a group of high apparent molecular weight glucosamine-labelled components were more abundant in materials released from Rous sarcoma virus-transformed baby hamster kidney cells than from baby hamster kidney cells or polymo virus-transformed baby hamster kidney cells. The relative rates of release of glucosamine-labelled components from transformed and untransformed cells were similar except that the transformed baby hamster kidney cells released some large molecular weight components slightly more rapidly than baby hamster kidney cells. Treatment of labelled medium materials with testicular hyaluronidase removed much glucosamine label from the materials but did not affect the amounts of other labels. After treatment with hyaluronidase, the patterns of labelled conditioned media from both transformed and untransformed baby hamster kidney cells were qualitatively and quantitatively very similar, suggesting that the differences seen in untreated labelled conditioned media were due to the presence of hyaluronidase-sensitive materials associated with medium materials rather than to actual differences in glycoproteins.     

Monoclonal antibody produced against partially purified sporozoite antigen inhibits invasion of cells by sporozoites of avian Eimeria species

Previous studies showed that molecules of in vitro-cultured primary turkey kidney cells bound to 23-, 40-, and 60- to 65-kDa antigens of sodium dodecyl sulfate-solubilized sporozoites of Eimeria adenoeides. Similar binding to antigens of three other species of avian Eimeria, E. tenella, E. acervulina, and E. meleagrimitis, is now reported. Strips containing the most avidly bound sporozoite antigen (approximately 40 kDa) were excised from the sodium dodecyl sulfate-polyacrylamide gels on which E. adenoeides antigens had been electrophoretically separated. The strips were homogenized and injected into mice to produce hybridoma cell lines. Twelve cell lines secreting monoclonal antibodies (McAb) that reacted with E. adenoeides sporozoites were detected. One of these McAb, H11C3, reacted with structures in the anterior tip of sporozoites of E. adenoeides and five other species of avian Eimeria. When included in the inoculation medium, this McAb significantly inhibited invasion of cultured kidney cells by sporozoites of E. adenoeides and E. tenella. In contrast, when the sporozoites were pretreated with McAb H11C3 and then washed free of the antibody, no inhibition of invasion was observed.     

Eimeria dispersa and Eimeria gallopavonis: Infectivity, Survival, and Development in Primary Chicken and Turkey Kidney Cell Cultures

SYNOPSIS. Eimeria dispersa (turkey strain) and Eimeria gallopavonis sporozoites were inoculated into primary cultures of chicken kidney (CK) and turkey kidney (TK) cells. Eimeria dispersa sporozoites were more infective in either cell type than those of E. gallopavonis : at 4 hr, the percentage of infection was 67-98 for E. dispersa but only 23-56 for E. gallopavonis . E. dispersa also survived better in culture: at 2 days, losses of E. dispersa in both cell types were only 4-19%, whereas losses of E. gallopavonis were 35-47% in TK cells and 60–95% in CK cells. However, E. gallopavonis developed further than E. dispersa . Location and increase in numbers of intracellular stages at 4 days indicated that E. dispersa proceeded through 2 schizogonic generations before development stopped.     

Supplementary factors required for serum-free culture of rat kidney cells of line NRK-49F

Summary Factors requred as supplements to basal tissue culture medium for the multiplication of cells of the cloned rat fibroblast line called normal rat kidney 49F (NRK-49F) were identified as epidermal growth factor, fibronectin, insulin, and retinoic acid. The requirement for fibronectin was manifested on a clean glass surface but not on the polystyrene plastic surface tested. This set of required factors differs substantially from the factor sets required by the Madin-Darby, canine kidney (MDCK) and LLC-PK₁ pig kidney lines of epithelial cells and the baby hamster kidney 21 (BHK-21) line of fibroblasts. The serum-free medium supplemented with the four factors supported rapid growth of NRK-49F cells when the initial cell population density was about 8,000 cells/cm² or greater. At lower initial densities, cell multiplication was markedly increased by adding serum-free medium that had been conditioned by NRK-49F cells. Cell growth rate in the defined serum-free medium stayed high through two serial passages but declined in the third serial passage unless the cell-conditioned medium was added.     

Effects of Cationized Ferritin and Neuraminidase on Invasion of Cultured Cells by Eimeria meleagrimitis Sporozoites

Primary turkey kidney cells and Eimeria meleagrimitis sporozoites were treated with cationized ferritin (CF) or neuraminidase (NANase), and the effects on the invasion of the cells by the sporozoites were measured. Cultures of host cells pretreated with either compound contained significantly fewer intracellular sporozoites than did control cultures. There was little additive effect if cultures were first treated with NANase and then with CF. In contrast, pretreatment of sporozoites with CF or low concentrations of NANase had no effect on invasion. The inhibition of invasion was apparently due to an interaction between treatment substances and host cell surface rather than to direct effect on the sporozoites. The CF bound to the randomly distributed anionic sites on the surfaces of both host cells and sporozoites and then rapidly aggregated. Sporozoites, probably in the process of invading cells, were invariably found with the conoid in close association with aggregates of CF on the host cell membrane. The CF on the sporozoites was apparently shed before or during invasion because all intracellular sporozoites were completely devoid of the label.     

Effects of cationized ferritin and neuraminidase on invasion of cultured cells by Eimeria meleagrimitis sporozoites

Primary turkey kidney cells and Eimeria meleagrimitis sporozoites were treated with cationized ferritin (CF) or neuraminidase ( NANase ), and the effects on the invasion of the cells by the sporozoites were measured. Cultures of host cells pretreated with either compound contained significantly fewer intracellular sporozoites than did control cultures. There was little additive effect if cultures were first treated with NANase and then with CF. In contrast, pretreatment of sporozoites with CF or low concentrations of NANase had no effect on invasion. The inhibition of invasion was apparently due to an interaction between treatment substances and host cell surface rather than to direct effect on the sporozoites. The CF bound to the randomly distributed anionic sites on the surfaces of both host cells and sporozoites and then rapidly aggregated. Sporozoites, probably in the process of invading cells, were invariably found with the conoid in close association with aggregates of CF on the host cell membrane. The CF on the sporozoites was apparently shed before or during invasion because all intracellular sporozoites were completely devoid of the label.     

Survival and Development of Eimeria meleagrimitis Tyzzer, 1929 in Bovine Kidney and Turkey Intestine Cell Cultures

SYNOPSIS. Monolayer cell cultures of embryonic turkey intestine (primary) and bovine kidney (cell line, 20th passage), maintained at 40.6 and 43 C for alternating intervals of approximately 12 hours in Basal Medium Eagle and fetal calf serum at pH 7.0–7.4, were observed for 144 hours after inoculation of Eimeria meleagrimitis sporozoites.
In turkey intestine cultures, which consisted of fibroblast-like cells and patches of epitheliul-like cells, there were decreases of 80 and 81% in the numbers of parasites between 5 and 48 hrs; in bovine cultures, 21–41% decreases. Decreases in the turkey cultures, however, were due to the nonsurvival of sporozoites in fibroblast-like cells; in epitheliul-like cells there was a 42% dcrease between 5 and 48 hrs and only 27% between 48 and 144 hours.
Trophozoites were present in bovine cells at 5 hrs. Small, mature schizonts containing only 12-28 merozoites were present in the bovine cultures and in the epitheliul-like cells within turkey intestine cultures from 48-144 hrs. Larger schizonts (50-115 by 20-70 μ) were present in bovine but not in turkey cultures from 72–144 hrs. Many of these schizonts contained far more merozoites than schizonts of any of the 3 generations described from the host.
In bovine cultures, there was an abundance of liberated merozoites at 50, 52, 74, and 76 hrs; many had reinvaded cells, sometimes as many as 50–60 per cell. In turkey cultures, liberated merozoites were found once at 144 hrs and none were intracellular. At 120 and 144 hrs in bovine cultures, abnormally developed and degenerate forms appeared; in turkey cultures, all were normal.     

Development of First-Generation Schizonts of Eimeria bovis in Cultured Bovine Cells

SYNOPSIS. Monolayer primary and secondary cultures of embryonic bovine kidney, spleen, intestinal and testicle cells, and secondary cultures of embryonic bovine thymus, maintained in lactalbumin hydrolysate, Earle's balanced salt solution and ovine serum were observed for a maximum of 21 days after inoculation of E. bovis sporozoites. The sporozoites entered the cells in all of these cultures but underwent development only in primary cultures of kidney and intestinal cells and in secondary cultures of kidney, spleen, thymus, intestinal, and testicle cells. In acellular media, the sporozoites retained motility no longer than 21 hr. In the cell cultures, free motile sporozoites were seen for as long as 18 days after inoculation. Sporozoites entered cells anterior end first; the process of penetration required a few seconds to about a minute. Sporozoites were also observed leaving host cells. Intracellular sporozoites were first seen 3 min after inoculation; they were observed at various intervals up to 18 days after inoculation. In transformation of sporozoites into trophozoites a marked change in size and appearance of the nucleus took place before the change in shape of the body occurred. Trophozoites were first found 7 days after inoculation, multinucleate schizonts after 8 days, and schizonts with merozoites after 14 days. Schizonts containing merozoites were seen only in kidney, spleen, and thymus cells. The mature schizonts were smaller and represented a much lower proportion of the total number than in comparable stages of infections in calves. Schizonts with many nuclei occurred in intestinal cells; the most advanced stage seen in testicle cells was the binucleate schizont. Nuclear and cytoplasmic changes were observed in the infected cells.     

AN ANALYSIS OF THE EFFECT OF "CONDITIONED MEDIUM" UPON THE CELL CULTURE AT LOW DENSITY

A favorable effect of “conditioned medium” upon outgrowth of the cell culture with low density in vitro was analysed with the cells of chicken embryos. For preparing “conditioned medium”, cultures with a large number of cells were made with muscle, kidney, lung, liver and skin, while the biological activity of the medium was assayed by using the culture of a small number of the lung secondary cells. A use of “conditioned medium” was found to be necessary for encouraging the outgrowth of the cultured cells below a critical inoculum size. Of the various types of the media tested, the medium conditioned with muscle was most effective. “Conditioned medium” contained at least two different active factors, the first to enhance the plating efficiency of the inoculated cells to the surface of the culture dish, and the second to promote further outgrowth of the plated cells. “Conditioned medium” taken out of the mass culture at its exponentially growing phase had only the second factor, while that taken out of that at its stationary phase contained both factors. An activity of the first factor was not detected, when the mass culture was kept in such condition that the collagen synthesis was inhibited. The factor for enhancing the plating efficiency was eliminated from “conditioned medium” by preincubating the cells, before assaying the effect of the medium.     

Factors promoting the establishment of primary cultures of liver cells fromXenopus larvae

Summary The requirements for establishment and survival of primary cultures of larval amphibian liver cells were investigated.Plating efficiency was found to be enhanced by a collagen substrate, by diluted conditioned medium from an adultXenopus kidney cell line and by high initial cell densities. Plating efficiency was highest at a tonicity of 165–220 mOsm/kg. In cultures with undiluted conditioned medium the increase in cell number was 50–60% greater than in controls, where it was about 2-fold between day 3 and 6 of culture. Conditioned medium from theXenopus kidney cell line is assumed to contain at least two components, which are effective at different concentrations and stimulate either plating efficiency and cell aggregation or cell proliferation.In cultures without collagen sheets, cell flattening is greatly reduced, indicating that cell shape is also dependent upon the substrate.     

Development of Eimeria auburnensis in Cell Cultures

SYNOPSIS. Monolayer established cell line cultures of bovine kidney (Madin-Darby) and human intestine (Intestine 407), as well as embryonic bovine tracheal and embryonic spleen cell line cultures were inoculated with E. auburnensis sporozoites and observed for a maximum of 22 days. Mature 1st generation schizonts developed in the kidney, tracheal and spleen cells. In the intestine cells, trophozoites were seen in 3 of 4 experiments, but schizonts were not found. Sporozoites penetrated cells, beginning within a few minutes after inoculation. Penetration was usually accomplished within 10 seconds, and the body of the sporozoite underwent a slight constriction as it passed thru the host cell membrane. Some sporozoites left cells. Numerous intracellular sporozoites were observed in kidney, tracheal and spleen cultures. Crescent bodies were seen in the parasitophorous vacuole as early as 1 day after inoculation. At this time, the nuclei of most intracellular sporozoites had changed from vesicular to compact. Beginning 4 days after inoculation, enlarged sporozoites and parasites having a sporozoite shape, but with 2-5 nuclei, were frequently seen. These enlarged sporozoites and sporozoite-shaped schizonts evidently transformed into trophozoites and spheroidal schizonts by means of lateral outpocketings. Few trophozoites were seen. More immature schizonts developed in kidney cells than in the other cell types. The numbers of mature schizonts observed in kidney and tracheal cells were similar, but development occurred less consistently in the latter. Few immature and mature schizonts developed in spleen cells. Mature schizonts, first seen 9 days after inoculation, were considerably smaller than those reported from calves. Some motile merozoites were seen; evidently no development beyond these occurred. The nucleus and nucleolus of host cells were enlarged; this enlargement was not as pronounced as in infections in calves. Multiple host cell nuclei were frequently observed. Degenerative changes in the cultured cells and in the parasites usually occurred, beginning 9-17 days after inoculation; these were more pronounced in the spleen cells than in the others.     

Development of Eimeria alabamensis from Cattle in Mammalian Cell Cultures*

SYNOPSIS. Monolayer primary cultures of cells from bovine embryonic intestine (BEInt), kidney (BEK), spleen (BES), and thyroid (BETy) and cell line cultures of embryonic bovine trachea (EBTr) and synovium (BESy) as well as established cell line cultures of bovine kidney (Madin-Darby, MDBK), human intestine (Int 407) and Syrian hamster kidney (BHK) were inoculated with freshly excysted sporozoites of Eimeria alabamensis and observed for 4–5 days. Sporozoites penetrated all cell types; during the 1st 24 hr, intracellular sporozoites, trophozoites and binucleate schizonts were seen in all cell cultures. Mature schizonts were more numerous in BES and MDBK cells than in the others. Large schizonts, 14.2 (11–18.5) by 10.2 μ (8.5–11), with 6–14 short, stubby merozoites (each with 2 refractile bodies) occurred at 2 and 3 days in all cells except BESy, Int 407, and BHK. Small schizonts, 9.7 (5.5–13) by 6 μ (5–8.5), with 6–10 long, slender merozoites (each with 2 refractile bodies) were found 3 days after inoculation in all cell types. At 4 days, some intracytoplasmic merozoites and a few intranuclear 2nd generation trophozoites were found. After 4 days post-inoculation, intracellular parasites were rarely seen and these were apparently degenerate. Development within the host cell nucleus, the normal site of development in the host animal, was observed infrequently in cell cultures. Intranuclear sporozoites, found no earlier than 2 days after inoculation, developed similarly to those in the cytoplasm, and small intranuclear schizonts with 6–10 merozoites (each with 2 refractile bodies) occurred after 3 days in culture.     

Growth characteristics in cell culture and pathogenicity in mice of two terrestrial rabies strains indigenous to Canada

Two strains of street rabies virus from striped skunks (Mephitis mephitis) were used to infect either a murine neuroblastoma (NA 1300) or a baby hamster kidney (BHK-21/C13) cell culture and the cell infection rates were noted during 4 days postinfection. These cultures were then passaged for four consecutive passages, and the viruses obtained in the supernatant fluids of passage 4 were then treated as original isolates and used to infect both neuroblastoma and baby hamster kidney cells. The mortality period in Swiss white mice caused by the various virus suspensions was noted. The virus strain from the brain of skunks from Saskatchewan infected neuroblastoma and baby hamster kidney cells equally well, produced similar virus titres in supernatant fluids after four subcultures in both cell types, and appeared to produce similar mortality periods in mice from either the original brain tissue or from cell culture supernatant fluids. On the other hand, the virus from the brains of skunks from Ontario readily infected neuroblastoma but poorly infected baby hamster kidney cell cultures. Passage of this strain through four subcultures in both cell types produced virus titres in the supernatant fluids of equal magnitude. However, reisolation of the virus from the supernatant fluid of passage 4 in neuroblastoma cell cultures showed a similar pattern to that from the original brain, while the virus from baby hamster kidney cell passage supernatant fluid was considerably altered. Although the mortality period in mice was similar with virus from the brain and neuroblastoma cell cultures, this period was shortened when mice were inoculated with baby hamster kidney culture supernatant virus.(ABSTRACT TRUNCATED AT 250 WORDS)     

Developmentally Regulated Secreted Factors Control Expression of Muscarinic Receptor Subtypes in Embryonic Chick Retina

Abstract: Two molecular mass subtypes of muscarinic receptor are expressed by the chick retina (72 and 86 kDa). During development, the ratio of subtypes changes, with the 72-kDa form becoming predominant. We have found that subtype switch can occur in retina cell culture, and have investigated factors that influence this in vitro increase in the 72-kDa receptor. Increases similar to those in vivo occurred when cells were cultured at 10⁵ cells/cm², but not at 10-fold lower density. High-density cultures, maintained on coverslips, showed no receptor development when transferred to large volumes of fresh medium, indicating that cell-cell contact alone was not responsible for induction. However, replacement of fresh medium with conditioned medium (from high-density cultures) resulted in normal induction. There were no morphological differences between cultures with high and low levels of the 72-kDa receptor. Conditioned medium also induced 72-kDa receptors in low-density cultures, consistent with a minimal role for cell-cell contact. Efficacy of conditioned medium was markedly dependent on age. Media from cells cultured 1–4 days had no effect, but media from cells cultured 5–8 and 1–8 days elicited 1.6-fold and fourfold increases in the 72-kDa subtype, respectively. The data indicate that maturing retina cells secrete developmentally regulated factors that are necessary for abundant expression of the 72-kDa muscarinic receptor subtype.     

Occurrence of minute ring-shaped nucleoprotein particles in culture media conditioned by mammalian cells

Summary Conditioned media of 21 mammalian cell lines have been examined by electron microscopic and biochemical techniques for the presence of a minute ring-shaped nucleoprotein particle (RSP). Electron microscopy showed the presence of RSP in 20 of the 21 cell lines tested. Comparative analyses of six cell cultures for radio-active RSP, following³H-thymidine incorporation, suggested that quantitative differences exist in the amount of RSP detectable in conditioned media of normal and pathologic cells. The cell lines tested included cells of different morphologies, origin and function. Supported by a research grant from Claremont Foundation, Inc., Claremont, California.