Irradiation of cells in tissue culture

Summary Cultures of human amnion were employed to check the hypothesis that cell strains with heteroploid chromosome counts regularly produce giant cells within 12 days following treatment with 2000 r and 4000 r of gamma irradiation from a cobalt source, while this response has not been obtained from primary cultures whose cells were presumed to be diploid.The giant cell reaction not only was obtained from two transfer passage lines of a well-established amnion strain developed at Berkeley (No A 185-21C-26 and No A 185-21C-45) but was also found for a 20-day second passage culture of amnion. Since this line has continued to reproduce at a rapid rate, it is presumed to have assumed the features of a typical strain within the period of observation. This impression was reinforced by the finding that the chromosome number for 32 cells fixed on the 35th day had a modal value of 67.In contrast, both untrypsinized and trypsinized spindle cells in primary cultures as well as unaltered epithelial elements which had not been subcultured gave no evidence of giant cell formation 12 days after exposure to 2000 r and 4000 r from a Cobalt⁶⁰ source.These data lend evidence that giant cell formation is related to the chromosomal constitution of the irradiated elements.This research was supported by funds provided under Contract AF 18(600)-1263 with the School of Aviation Medicine, USAF, Randolph Air Force Base, Texas.Fellow of the Instituto de Alta Cultura and the Fundacão Calouste Gulbenkian of Lisbon, Portugal.Tobacco Industry Research Committee Fellow.     

UV-Irradiation of related mouse hybrid cells: Similar increase in capacity to replicate intact minute-virus-of-mice but differential enhancement of survival of UV-irradiated virus

3 hybrid cell lines between mouse fibroblasts (A9) and mouse lymphoma cells (L5178YS) were compared with regard to the ability of UV-pre-irradiated cells to replicated intact (unirradiated) Minute-Virus-of-Mice (MVM) and to reactivate UV-irradiated MVM. UV irradiation of cells before virus infection enhanced their ability to plaque intact virus (Enhanced Capacity) to a similar extent in the 3 hybrid cell lines. However, pretreatment of cells with UV radiation enhanced the survival of UV-damaged virus (Enhanced Reactivation) in only 1 of these hybrids. The lack of detectable Enhanced Reactivation in the other hybrids without concomitant change in their Enhanced Capacity, suggets that these processes are at least partly independent. Virus survival in unirradiated cells was similar for all 3 hybrid cell lines, indicating that the absence of detectable Enhanced Reactivation in 2 of the hybrids was not due to the constitutive expression of this process, but might rather result from its loss or extinction. The expression of both Enhanced Capacity and Enhanced Reactivation requires synthesis of protein de novo shortly after cell irradiation.     

Repair and mutagenesis of herpes simplex virus in UV-irradiated monkey cells

Mutagenic repair in mammalian cells was investigated by determining the mutagenesis of UV-irradiated or unirradiated herpes simplex virus in UV-irradiated CV-1 monkey kidney cells. These results were compared with the results for UV-enhanced virus reactivation (UVER) in the same experimental situation. High and low multiplicities of infection were used to determine the effects of multiplicity reactivation (MR). UVER and MR were readily demonstrable and were approximately equal in amount in an infectious center assay. For this study, a forward-mutation assay was developed to detect virus mutants resistant to iododeoxycytidine (ICdR), probably an indication of the mutant virus being defective at its thymidine kinase locus. ICdR-resistant mutants did not have a growth advantage over wild-type virus in irradiated or unirradiated cells. Thus, higher fractions of mutant virus indicated greater mutagenesis during virus repair and/or replication. The data showed that: (1) unirradiated virus was mutated in unirradiated cells, providing a background level of mutagenesis; (2) unirradiated virus was mutated about 40% more in irradiated cells, indicating that virus replication (DNA synthesis?) became more mutagenic as a result of cell irradiation; (3) irradiated virus was mutated much more (about 6-fold) than unirradiated virus, even in unirradiated cells; (4) cell irradiation did not change the mutagenesis of irradiated virus except at high multiplicity of infection. High multiplicity of infection did not lead to higher mutagenesis in unirradiated cells. Thus the data did not demonstrate UVER or MR alone to be either error-free or error-prone. When the two processes were present simultaneously, they were mutagenic.     

The effect of cell irradiation on mutation in ultraviolet-irradiated and intact simian virus 40

The induction of phenotypic wild-type revertants in the progeny of an unirradiated or UV-irradiated temperature-sensitive late mutant of simian virus 40 was studied after low multiplicity passages in normal or UV-irradiated confluent monkey kidney cells. The production of wild-type revertants in the progeny of undamaged tsBC245 was followed by infecting the cells at distinct times after irradiation of the cells. Mutation frequencies reached a maximum when infection was delayed for 3--4 days after irradiation of the host cells, and declined gradually thereafter. Virus grown in unirradiated cells did not show such an alteration in mutation frequency. The temporarily higher mutation frequency of virus in UV-pretreated cells is due to a transient mutator activity operating in these cells rather than to an increased number of replications performed in UV-irradiated cells. A similar time course was found for the reactivation of UV-damaged SV40. This might suggest that reactivation and mutagenesis are manifestations of the same process. The yield of mutants due to irradiation of the virus alone was enhanced when infection was delayed for some days after the cells reached confluency; UV pretreatment of the host cells did not enhance the level of mutation obtained by UV irradiation of the virus.     

Role of the competitive microbial flora in the radiation-induced enhancement of ochratoxin production by Aspergillus alutaceus var. alutaceus NRRL 3174.

The radiation sensitivity and the toxigenic potential of conidiospores of the fungus Aspergillus alutaceus var. alutaceus were determined after irradiation with 60Co gamma rays and high-energy electrons. Over the pH range of 3.6 to 8.8, the doses required for a 1 log10 reduction in viability based on the exponential portion of the survival curve ranged from 0.21 to 0.22 kGy, with extrapolation numbers (extrapolation of the exponential portion of the survival curve to zero dose) of 1.01 to 1.33, for electron irradiation, and from 0.24 to 0.27 kGy, with extrapolation numbers of 2.26 to 5.13, for gamma irradiation. Nonsterile barley that was inoculated with conidia of the fungus and then irradiated with either electrons or gamma rays and incubated for prolonged periods at 28 degrees C and at a moisture content of 25% produced less ochratoxin A with increasing doses of radiation. Inoculation of barley following irradiation resulted in enhanced ochratoxin levels compared with unirradiated controls. In these experiments, inoculation with 10(2) spores per g produced greater radiation-induced enhancement than inoculation with 10(5) spores per g. There was no radiation-induced enhancement when the barley was surface sterilized by chemical means prior to irradiation. These results are consistent with the hypothesis that a reduction in the competing microbial flora by irradiation is responsible for the enhanced mycotoxin production observed when nonsterile barley is inoculated with the toxigenic fungus A. alutaceus var. alutaceus after irradiation.     

Role of the competitive microbial flora in the radiation-induced enhancement of ochratoxin production by Aspergillus alutaceus var. alutaceus NRRL 3174.

The radiation sensitivity and the toxigenic potential of conidiospores of the fungus Aspergillus alutaceus var. alutaceus were determined after irradiation with 60Co gamma rays and high-energy electrons. Over the pH range of 3.6 to 8.8, the doses required for a 1 log10 reduction in viability based on the exponential portion of the survival curve ranged from 0.21 to 0.22 kGy, with extrapolation numbers (extrapolation of the exponential portion of the survival curve to zero dose) of 1.01 to 1.33, for electron irradiation, and from 0.24 to 0.27 kGy, with extrapolation numbers of 2.26 to 5.13, for gamma irradiation. Nonsterile barley that was inoculated with conidia of the fungus and then irradiated with either electrons or gamma rays and incubated for prolonged periods at 28 degrees C and at a moisture content of 25% produced less ochratoxin A with increasing doses of radiation. Inoculation of barley following irradiation resulted in enhanced ochratoxin levels compared with unirradiated controls. In these experiments, inoculation with 10(2) spores per g produced greater radiation-induced enhancement than inoculation with 10(5) spores per g. There was no radiation-induced enhancement when the barley was surface sterilized by chemical means prior to irradiation. These results are consistent with the hypothesis that a reduction in the competing microbial flora by irradiation is responsible for the enhanced mycotoxin production observed when nonsterile barley is inoculated with the toxigenic fungus A. alutaceus var. alutaceus after irradiation.     

SURVIVAL OF AN UNIRRADIATED SALMONELLA TYPHIMURIUM MARKER STRAIN INOCULATED IN POULTRY FEEDS AFTER IRRADIATION

The present study was designed to compare unirradiated Salmonella typhimurium survival during storage after inoculation in either irradiated or unirradiated poultry feed. The effects of irradiation (5 kGy) on the indigenous feed microflora and on the survival of marker strain of S. typhimurium contaminated after irradiation treatment were determined during 56 days of storage of either soybean meal (SBM) or meat and bone meal (MBM) based feeds. The initial aerobic bacterial populations were reduced more than 90% in both SBM (4.96 to 4.08 ± 0.03 log₁₀ CPU/g feed) and MBM (5.12 to 3.90 ± 0.03) by irradiation. Irradiation treatment reduced the average fungal counts during 56 days of storage in both SBM (4.24 to 2.74 ± 0.03) and MBM (4.38 to 2.15 ± 0.03) containing feeds. However, unirradiated S. typhimurium populations inoculated after irradiation of the feed were not different in either irradiated or nonirradiated SBM and MBM based feeds. Therefore, the differences in fungal versus bacterial sensitivity among the feed types and storage times suggests that gamma irradiation can alter the makeup of indigenous microbial populations in feed but this does not appear to have a discernible influence on subsequent survival of unirradiated S. typhimurium added as a dry inoculum after irradiation.     

Cytopathogenic Test for Feline Leukemia Virus Infections

A mixed culture cytopathogenic effect with the development of multinucleated giant cells in feline leukemia virus-infected cultures after cocultivation with XC cells is described. This cytopathogenic effect has been utilized as a convenient visual marker for the detection and assay of feline leukemia virus in feline and canine embryo fibroblasts as well as in a canine tumor cell line, M-132-1. Comparison of the cytopathogenic reaction in the three cell lines indicates that the reaction is more rapid and pronounced in M-132-1 cells than in the embryo fibroblast cultures.     

The susceptibility of pregnant mice to encephalomyocarditis (EMC) virus infection on different days of gestation.

Pregnant mice of the BALB/c CrSlc strain were experimentally infected with the D variant of encephalomyocarditis virus (EMC-D, 5 x 10(2) PFU/head) on three different gestational days (GD). Mice were intraperitoneally inoculated with EMC-D on 11, 13 and 15 GD and sacrificed 3 days post inoculation. There was no significant difference in the fetal mortality among all inoculation groups. Placenta showed higher virus titer than fetus and dam's serum in all inoculation groups, and the virus titer of the fetus was lowest in the 15GD group. Histopathological changes and signals of viral RNAs detected by in situ hybridization were observed almost restricted to the spongiotrophoblast layer of the placenta in all inoculation groups, and the signals were strongest in the 11GD group. In the fetus of the11GD group, signals of viral RNAs were also seen in myocardium and hepatocytes. Ultrastructurally, intracytoplasmic aggregations of virus-like particles in crystalline array were observed in trophoblast cells and giant cells in the spongiotrophoblast layer in all inoculation groups.     

Zur Frage Des Einflusses Von R?ntgen- Und Uv-Strahlen Auf Die Mutationsrate Des Tabakmosaikvirus Nach Bestrahlung Reiner Pr?parate

Summary Pure solutions of TMV were irradiated with x-rays or ultraviolet light in order to study possible effects on the mutation rate of the virus. If no spontaneous mutations were observed in a particular virus preparation, no induced mutations resulted from irradiation. In preparations showing spontaneous mutations, the rate of mutation was increased by irradiation only if the exposed material was compared with unirradiated virus diluted so as to give more lesions per leaf than the irradiated sample. The apparent mutation rate increased with dilution of active virus, whether this dilution was effected by irradiation or by the direct addition of phosphate buffer. Artificial unequal mixtures of two related virus strains, with either in the majority, were tested at different dilutions of the whole; without exception the symptoms of that partner present in minority became relatively more frequent with decreasing total concentration of the mixture.The effects observed here, as well as those described byGowen (1941), can readily be explained on the basis of competition between related virus strains. The evidence does not support an hypothesis of mutagenic action of irradiation on purified TMV preparations.

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Ein Teil der hier veröffentlichten Ergebnisse ist Bestandteil einer Dissertation der math.-naturw. Fakultät der Univ. Tübingen 1954.     

First cases of histoplasmosis diagnosed in recife,Brasil

Summary Three cases of histoplasmosis are described, one also with subcutaneous nodule, the first cases reported from Pernambuco, Brasil.Histoplasma capsulatum was isolated from tissues in two cases and from sputum in two cases, all in pure culture.Docente Livre de Parasitologia, Chefe de Secção de Micologia. Cat. Prof.Alvaro de Figueiredo.Professor, Washington University, formerly Visiting Professor, Cadeira de Parasitologia.Pesquisadora, Cadeira de Parasitologia, Secção de Micologia.     

Effects of infection by HIV-1, cytomegalovirus, and human measles virus on cultured human thymic epithelial cells

A tissue culture system for the growth of human fetal and infantile thymic epithelial (TE) cells has been established and characterized. We have investigated the effects of infection of these cells by human cytomegalovirus (CMV), measles virus, and human immunodeficiency virus type-1 (HIV-1). In the case of CMV, morphological changes were apparent by 2-4 days after viral inoculation of infantile TE cells. CMV-related antigens were detected by immunofluorescence after 12 days, and progeny infectious CMV was recovered from culture media after 18 days. Following infection by measles virus, distinctive, multinucleated giant TE cells appeared in both cultures of fetal and infantile TE cells. Measles virus-inoculated TE cells displayed an altered phenotype, as revealed by reaction with monoclonal antibodies with specificity for a variety of TE markers. Finally, infection of TE cells by HIV-1 resulted in cellular disarrangement, increased numbers of Hassall's corpuscles, and multinucleated giant cells. An increase in the number of cells reactive with monoclonal antibodies, specific for Hassall's corpuscles, was observed in the case of cells infected by either measles virus or HIV-1. These findings suggest that a variety of different viruses can successfully infect thymic epithelial tissue. Because of the important role of the thymus in development of the immune system, it is reasonable to conclude that viral infection of thymic tissue might play an important role in virus-mediated suppression of immune responsiveness.     

Isolation and characterization of viruses from fetal calf serum

Summary Ten lots of specially procured fetal calf serum collected under sterile conditions and not filtered and 16 lots of commercial fetal calf serum were tested for both human and bovine viral contamination. The presence of viruses was evaluated by observing for cytopathogenic effect (CPE), hemadsorption with guinea pig erythrocytes, and interference with cytopathogenic challenge viruses in both embryonic bovine trachea (EBTr) and human diploid lung (HDL) cells. Isolates were characterized by their cytopathogenicity, morphology, serology, and ability to propagate and produce cPE in a variety of bovine and nonbovine cells. One isolate was unequivocally identified as bovine herpes virus 1, and the other was presumptively identified as a bovine virus-diarrhea virus. This study was supported by The National Institutes of Health under Contract PH 43-66-539.     

VIII.—Some Notes on the Birds ofPortugal

T he following notes were made by us in the spring of 1932 in the course of a short holiday spent in South and Central Portugal. We left Southampton at noon on 2 April by the R.M.S.P. 'Alcantara,' and landed at Lisbon at noon on 5 April, and the same evening we reached Setubal. After that our itinerary was as follows:—8 April from Setubal viâ Faro to Villa Real de St. Antonio on the Guadiana River at the extreme south-east of Portugal; 12 April from Villa Real de St. Antonio viâ Faro and Portimão to Monchique; 15 April to Portimão; 16 April to Faro; 17 April to Setubal; 21 April to Lisbon; 23 April to Luso-Bussaco, from which place trips were made to Coimbra, Aveiro, and Pereira; and we left for England on the 30th.     

Ultraviolet enhanced reactivation of a human virus: effect of delayed infection

The ability of UV-irradiated herpes simplex virus to form plaques was examined in monolayers of CV-1 monkey kidney cells preexposed to UV radiation at different intervals before virus assay. From analysis of UV reactivation (Weigle reactivation) curves it was found that as the interval between cell UV irradiation (0-20 J/m2) and initiation of the virus assay was increased over a period of five days, (1) the capacity of the cells to support unirradiated virus plaque formation, which was decreased immediately following UV exposure to the monolayers, increased and returned to approximately normal levels within five days, and (2) at five days an exponential increase was observed in the relative plaque formation of irradiated virus as a function of UV fluence to the monolayers. For high UV fluence (20 J/m2) to the cells, the relative plaque formation by the UV-irradiated virus at five days was about 10-fold higher than that obtained from assay on unirradiated cells. This enhancement in plaque formation is interpreted as a delayed expression of Weigle reactivation. The amount of enhancement resulting from this delayed reactivation was several fold greater than that produced by the Weigle reactivation which occurred when irradiated herpes virus was assayed immediately following cell irradiation.     

Adeno-associated virus sensitizes HeLa cell tumors to gamma rays.

Infection with the helper virus-dependent human parvovirus adeno-associated virus (AAV) is known to interfere with cellular transformation in vitro and oncogenesis in vivo. Here we report on sensitization to gamma irradiation by AAV infection of cells in culture and of tumors established from HeLa cells grafted into immunodeficient (nude) mice: infection of HeLa cells with AAV type 2 enhanced cell killing and reduced plating efficiency after irradiation compared with uninfected cells. Similarly, HeLa cell tumors in nude mice displayed a reduced growth rate and were more sensitive to gamma irradiation when the animals were infected with AAV type 2 prior to or after tumor cell inoculation. Since no pathogenicity is known for AAV, the ability of this virus to render radiotherapy of human tumor cells more efficient may up open novel approaches in cancer treatment.     

Enhanced mutagenesis parallels enhanced reactivation of herpes virus in a human cell line.

U.v. irradiation of human NB-E cells results in enhanced mutagenesis and enhanced reactivation of u.v.-irradiated H-1 virus grown in those cells ( Cornelis et al., 1982). This paper reports a similar study using herpes simplex virus (HSV) in NB-E cells. The mutation frequency of HSV (resistance of virus plaque formation to 40 micrograms/ml iododeoxycytidine ) increased approximately linearly with exposure of the virus to u.v. radiation. HSV grown in unirradiated cells gave a slope of 1.8 X 10(-5)m2/J, with 3.2 X 10(-5)m2/J for HSV grown in cells irradiated (3 J/m2) 24 h before infection. There was no evidence for mutagenesis of unirradiated virus by irradiated cells, as seen with H-1 virus. Enhanced reactivation of irradiated HSV in parallel cultures increased virus survival, manifested as a change in slope of the final component of the two-component survival curve from a D0 of 27 J/m2 in unirradiated cells to 45 J/m2 in irradiated cells. Thus, enhanced mutagenesis and enhanced reactivation occurred for irradiated HSV in NB-E cells. The difference in the enhanced mutagenesis of HSV (dependent on damaged DNA sites) and of H-1 virus (primarily independent of damaged DNA sites) is discussed in terms of differences in DNA polymerases.     

Bystander-mediated genomic instability after high LET radiation in murine primary haemopoietic stem cells

Communication between irradiated and unirradiated (bystander) cells can result in responses in unirradiated cells that are similar to responses in their irradiated counterparts. The purpose of the current experiment was to test the hypothesis that bystander responses will be similarly induced in primary murine stem cells under different cell culture conditions. The experimental systems used here, co-culture and media transfer, are similar in that they both restrict communication between irradiated and bystander cells to media borne factors, but are distinct in that with the media transfer technique, cells can only communicate after irradiation, and with co-culture, cells can communication before, during and after irradiation. In this set of parallel experiments, cell type, biological endpoint, and radiation quality and dose, were kept constant. In both experimental systems, clonogenic survival was significantly decreased in all groups, whether irradiated or bystander, suggesting a substantial contribution of bystander effects (BE) to cell killing. Genomic instability (GI) was induced under all radiation and bystander conditions in both experiments, including a situation where unirradiated cells were incubated with media that had been conditioned for 24h with irradiated cells. The appearance of delayed aberrations (genomic instability) 10-13 population doublings after irradiation was similar to the level of initial chromosomal damage, suggesting that the bystander factor is able to induce chromosomal alterations soon after irradiation. Whether these early alterations are related to those observed at later timepoints remains unknown. These results suggest that genomic instability may be significantly induced in a bystander cell population whether or not cells communicate during irradiation.     

The proliferative capacity of mouse fibrosarcoma cells that survived x-irradiation

Delayed reproductive death, the appearance of colonies with a reduced cell density (impaired colonies) and the number of giant cells per colony were investigated in murine fibrosarcoma cells after irradiation with 3 to 9 Gy of x-rays. Radiation survivors were replated after reaching confluence, which occurred after 13 to 15 doublings; this procedure was repeated three times. The replating efficiency decreased in a dose-dependent manner, the survivors of 9 Gy achieving only 30% of the plating efficiency of unirradiated cells. After the third replating, i.e. after 40 to 45 doublings, the plating efficiency of the survivors approached that of the controls. The median colony size of the survivors showed a similar dose-dependent decrease, which was pronounced after the first replating but still remained significant after the third replating. The fraction of impaired colonies was increased to more than 30% in 9-Gy survivors, and though abating, the increase was still significant even after the third replating. Evidence of residual damage was also provided by the presence of giant cells. For instance, after 6 Gy irradiation and 13 to 15 doublings, the proportion of colonies with giant cells was 60%, decreasing only to 45% after 40 to 45 doublings. The number of giant cells per colony was 1.4 in colonies arising immediately after 6 Gy, decreasing to 0.9 after the third replating. These results suggest that the proliferative capacity of surviving cells is depressed even longer than their clonogenic capacity.     

Scanning electron microscopic assessment on surface morphology of preserved human amniotic membrane after gamma sterilisation

Human amniotic membrane that has been processed and sterilised by gamma irradiation is widely used as a biological dressing in surgical applications. The morphological structure of human amniotic membrane was studied under scanning electron microscopy (SEM) to assess effects of gamma radiation on human amniotic membrane following different preservation methods. The amniotic membrane was preserved by either air drying or submerged in glycerol before gamma irradiated at 15, 25 and 35 kGy. Fresh human amniotic membrane, neither preserved nor irradiated was used as the control. The surface morphology of glycerol preserved amnion was found comparable to the fresh amniotic membrane. The cells of the glycerol preserved was beautifully arranged, homogonous in size and tended to round up. The cell structure in the air dried preserved amnion seemed to be flattened and dehydrated. The effects of dehydration on intercellular channels and the microvilli on the cell surface were clearly seen at higher magnifications (10,000×). SEM revealed that the changes of the cell morphology of the glycerol preserved amnion were visible at 35 kGy while the air dried already changed at 25 kGy. Glycerol preservation method is recommended for human amniotic membrane as the cell morphological structure is maintained and radiation doses lower than 25 kGy for sterilization did not affect the appearance of the preserved amnion.