D2O induced alterations of mitosis in PtK1 cells

Deuterium oxide (D2O) was applied to PtK1 cells to assess its effect on mammalian mitosis. Cells exposed to culture medium containing up to 50% D2O were able to enter and complete mitosis, but the duration of mitosis was increased proportionally to the concentration of D2O applied. Cells exposed to 50% D2O showed increases of more than 300% for the interval between nuclear envelope breakdown and anaphase onset, and approximately 65% for the interval between anaphase onset and initial furrowing. At a concentration of 80%, D2O acted as an inhibitor of mitosis; after 8 h exposure to this concentration, cultures showed an increase in the proportion of mulinucleate cells and an absence of mitotic figures. When applied early in anaphase, 80% D2O effectively slowed chromosome separation, prolonging anaphase for more than 60 min. Normal chromosome motion was restored when medium containing D2O was replaced with control medium. Mitotic chromosomes remained condensed throughout prolonged anaphase intervals. Immunofluoresence examination of spindles stained using a monoclonal anti-tubulin revealed no pronounced increase in microtubule polymerization after exposure of cells to 20-80% D2O.     

Disorganization of mitosis in HeLa cells by deuterium oxide

We assessed, by light and electron microscopy, the influence of deuterium oxide on the dynamics of mitosis and on the morphology of the mitotic apparatus in HeLa cells grown in vitro. A 2-h incubation of HeLa monolayers with low concentrations of D2O (1%-25%) in the medium increased the frequency of multipolar divisions up to 20 times the control level. Substitution of 10% and 25% D2O for H2O induced changes in the proportions of mitotic phases. These changes could be fully reversed to the control pattern after 1 h of recovery in non-deuterated medium. Fifty % D2O strongly inhibited, and 75% D2O blocked the cell cycle before prophase and at (pro-)metaphase. In cells treated with 50% D2O conspicuous morphological changes of the interphase chromatin as well as ultrastructural abnormalities of all mitotic phases were regularly observed. Overall, these results confirmed the antimitotic activity of deuterium oxide and revealed that it could also influence the cell cycle before mitosis. It is suggested that interference with diverse cellular constituents rather than a specific influence on microtubule turnover could be responsible for the disorganization of the cell cycle in HeLa cells by D2O.     

A microtubule-associated protein antigen unique to mitotic spindle microtubules in PtK1 cells

Microtubule-associated proteins (MAPs) that copurify with tubulin through multiple cycles of in vitro assembly have been implicated as regulatory factors and effectors in the in vivo activity of microtubules. As an approach to the analysis of the functions of these molecules, a collection of lymphocyte hybridoma monoclonal antibodies has been generated using MAPs from HeLa cell microtubule protein as antigen. Two of the hybridoma clones secrete IgGs that bind to distinct sites on what appears to be a 200,000-dalton polypeptide. Both immunoglobulin preparations stain interphase and mitotic apparatus microtubules in cultured human cells. One of the clones (N-3B4.3.10) secretes antibody that reacts only with cells of human origin, while antibody from the other hybridoma (N-2B5.11.2) cross-reacts with BSC and PtK1 cells, but not with 3T3 cells. In PtK1 cells the N-2B5 antigen is associated with the microtubules of the mitotic apparatus, but there is no staining of the interphase microtubule array; rather, the antibody stains an ill-defined juxtanuclear structure. Further, neither antibody stains vinblastine crystals in either human or marsupial cells at any stage of the cell cycle. N-2B5 antibody microinjected into living PtK1 cells binds to the mitotic spindle, but does not cause a rapid dissolution of either mitotic or interphase microtubule structures. When injected before the onset of anaphase, however, the N-2B5 antibody inhibits proper chromosome partition in mitotic PtK1 cells. N-2B5 antibody injected into interphase cells causes a redistribution of MAP antigen onto the microtubule network.     

The effect of oxygen concentration on the growth and metabolism of Saccharomyces cerevisiae grown with excess of potassium or in potassium-deficient media

1. Saccharomyces cerevisiae cells grown in limiting K(+) concentration have their growth inhibited by O(2) concentrations above 40%. With these conditions the cells grow very large and are unable to maintain ionic gradients when washed with water. 2. Cells grown in excess of K(+) showed the same pattern of change in cell size with change in O(2) concentration, but the magnitude of the changes was much less. Cells grown in excess of K(+) were not leaky. 3. Cell death, growth and development of ;leakiness' were not correlated in the cells grown in limiting K(+) concentration. 4. The activities of both alcohol dehydrogenase and cytochrome oxidase were higher in K(+)-deficient cells than in the cells grown with excess of K(+). The differences were much larger when the measurements were made on a cellular basis than when made on a protein basis. 5. In 100% O(2) 3mm-K(+) in the medium was sufficient to produce normal yeast cells.     

Influence of chronological aging on the survival and nucleotide content of Saccharomyces cerevisiae cells grown in different conditions: occurrence of a high concentration of UDP-N-acetylglucosamine in stationary cells grown in 2% glucose

Saccharomyces cerevisiae cells (strain W303) grown in a minimal medium (containing 2% or 0.1% glucose) until exponential or stationary phase, were subjected to chronological aging in water, and yeast viability and nucleotide content were analyzed along several days of nutrient starvation. Cells collected in exponential phase (whether grown in the presence of 0.1% or 2% glucose) were viable up to five days and thereafter the viability decreased linearly with a half-survival rate of around eight days. ATP and other nucleoside triphosphates decreased similarly in both cases. Cells collected in stationary phase, and transferred to water, behaved differently whether grown in 0.1% or in 2% glucose, with a half-survival life of around nine and 28 days respectively. A double mutant in glycogen synthase (gsy1delta gsy2delta) and its isogenic wild-type strain, grown to stationary phase in 2% glucose, presented a similar half-survival life of around eight days. The W303 cells grown to stationary phase in the presence of 2% glucose showed a 7-fold increase of UDP-N-acetylglucosamine (UDP-GlcNAc) as compared with the level present in the cells grown in any of the other three metabolic situations. The nature of UDP-GlcNAc was established by MALDI-TOF ionization analysis. It is also worth noting that the rate of decay of NAD+ was lower than that of ATP in any of the situations here considered.     

D2O inhibition of interphase thymocyte death]

Using the method of flow cytometry and biochemical analysis it was shown that D2O, an agent that stabilizes microtubules, prevented the internucleosome fragmentation of DNA in thymocytes exposed to gamma radiation and dexamethasone in vitro. It was also found that D2O is ineffective with respect to Ca2+/Mg2(+)-dependent nuclease. The transfer of irradiated cells from a medium containing 90% of D2O to a normal one caused rapid DNA degradation; the fragmentation process ceased with the irradiated cells being transferred from H2O to heavy water. The results obtained permit us to assume that the disturbance of microtubules is not a trigger mechanism of DNA degradation by apoptosis, but is some intermediate stage of cell death preceding the chromatin fragmentation proper.     

Factors influencing the growth and respiration of rat cerebral astrocytes in primary culture

Cell densities and respiratory rates of astrocytes from neonatal rat brain grown in primary culture were determined after 20–30 days in vitro. Cells grown in flasks reached lower densities (g DNA/cm²) and higher protein: DNA ratios than cells grown in petri dishes. Respiratory rates were lower for cells grown in flasks compared to cells grown in dishes. The pH of the medium in flasks fell below 6.9 between feedings while the pH of the medium in dishes remained at about 7.2. Cells grown in dishes with the medium pH adjusted to 6.8 also showed lower final cell densities, higher protein: DNA ratios, and lower respiratory rates, compared to cells grown under similar conditions at pH 7.5. Intermediate values of each parameter were found in cells grown at pH 7.5 for one week and then at 6.8 for 20 days. We conclude that the effects of ambient pH account for the differences in growth characteristics and respiratory rates of astrocytes grown in dishes versus those grown in flasks.     

NITROGEN METABOLISM OF AQUATIC ORGANISMS. II. THE ASSIMILATION OF NITRATE,NITRITE, AND AMMONIA BY BIDDULPHIA AURITA1

Biddulphia aurita, a centric diatom, can grow on either nitrate, nitrite, or ammonia as its sole nitrogen, source. Cells remove ammonium nitrogen from the medium 2.3–2.4 times faster than either nitrate or nitrite nitrogen and, when grown for 24 hr in the ammonium medium, contain higher levels of non-protein nitrogen than cells grown in the nitrate or nitrite medium for the same period of time. The nitrogenous compounds in the nonprotein nitrogen fraction from cells grown in the nitrate, nitrite, or ammonium medium contain the same level of soluble-free amino nitrogen, combined amino nitrogen, and ammonium nitrogen. The high level of soluble nonprotein nitrogen in the medium of the cells grown in the ammonium medium is due to soluble amide nitrogen which represents 18% of the total soluble nitrogen present in these cells, whereas it represents only 2% in cells from the nitrite medium, and its level is negligible in cells from the nitrate medium. Cells grown in the nitrate medium have both nitrate- and nitrite-reductase activity. Cells grown in the nitrite medium have only nitrite-reductase activity in significant levels, while cells grown in the ammonium medium lack both enzymes.     

Tubulin and calmodulin. Effects of microtubule and microfilament inhibitors on localization in the mitotic apparatus

Indirect immunofluorescence was used to determine the distribution of calmodulin in the mitotic apparatus of rat kangaroo PtK2 and Chinese hamster ovary (CHO) cells. The distribution of calmodulin in PtK2 cells was compared to the distribution of tubulin, also as revealed by indirect immunofluorescence. During mitosis, calmodulin was found to be a dynamic component of the mitotic apparatus. Calmodulin first appeared in association with the forming mitotic apparatus during midprophase. In metaphase and anaphase, calmodulin was found between the spindle poles and the chromosomes. While tubulin was found in the interzonal region throughout anaphase, calmodulin appeared in the interzone region only at late anaphase. The interzonal calmodulin of late anaphase condensed during telophase into two small regions, one on each side of the midbody. Calmodulin was not detected in the cleavage furrow. In view of the differences in the localization of calmodulin, tubulin, and actin in the mitotic apparatus, experiments were designed to determine the effects of various antimitotic drugs on calmodulin localization. Cytochalasin B, an inhibitor of actin microfilaments, had no apparent effect on calmodulin or tubulin localization in the mitotic apparatus of CHO cells. Microtubule inhibitors, such as colcemid and N2O, altered the appearance of tubulin- and calmodulin-specific fluorescence in mitotic CHO cells. Cold temperature (0 degrees C) altered tubulin-specific fluorescence of metaphase PtK2 cells but did not alter calmodulin-specific fluorescence. From these studies, it is concluded that calmodulin is more closely associated with the kinetichore-to-pole microtubules than other components of the mitotic apparatus.     

Reorganization of plasma membrane-associated 36 000 dalton protein upon drug-induced redistribution of cytokeratin

Epithelial PtK2 cells were used as a model to study the possible redistribution of the major tyrosine protein kinase substrate, p36, upon drug-induced reorganization of the cytokeratin network. Cells were grown on glass coverslips and exposed to cytochalasin D (CD), colcemid or a combination of the two. The cytokeratin type intermediate filaments of the cells were redistributed by treatment of the cells with colchicine and CD. Simultaneous changes in cytokeratin and in p36 antigen were observed by double-label immunofluorescence. In control PtK2 cells, p36 was distributed characteristically at the cortical cytoplasm. Neither colchicine nor CD alone was able to cause a major reorganization of cytokeratin or p36. Their combined effect resulted in formation of blebs containing abundant p36 at the cell surface and at cell-cell junctions. Actin, on the other hand, was reorganized to similar configurations by CD alone. These observations show for the first time a drug-induced redistribution of p36. The results suggest a relationship between membrane-associated p36 and the cytoskeletal fibres that terminate at the plasma membrane.     

Generation of cytotoxic T lymphocytes from peripheral blood of leukaemic patients

Peripheral blood mononuclear cells from 13 patients with acute leukaemia were used to establish long-term interleukin-2-dependent cytotoxic T lymphocytes. Cells were grown in RPMI medium containing interleukin-2 (IL-2, 100 U/ml) and 2.5% conditioned medium prepared by activating normal lymphocytes with phytohaemagglutinin. Proliferation of IL-2-dependent CD3-positive lymphocytes was seen in 1 of 2 acute lymphocytic leukaemia cases (ALL), 1 of 4 acute myelogeneous leukaemia cases (AML) (M1) and 8 of 8 more differentiated AML. In 2 cases with detectable leukaemic cell markers (1 ALL and 1 AML) passageable cells were developed, that expressed normal T cell phenotypes (namely CD3, CD4, and CD8) at the expense of leukaemic cells. In 1 of 2 cases, long-term IL-2-cultured cells showed specific cytotoxic activity against autologous leukemic cells. The percentage killing against autologous and two allogeneic target cell lines at a 50/1 effector/target (E/T) ratio was 42%, 9% and 19% respectively. Similarly the cytotoxic activity of IL-2 activated from 4 different individuals against conventional tumour targets K562 and Daudi at a ratio of 50/1 was 29%–68% (median=55%) and 34%–78% (median=61%) respectively. It was also found that this killing potential of the activated cells was maintained for as long as culture was continued (median 23 days, range 17–75 days). The mechanism(s) of T cell proliferation at the expense of leukaemic blast cells in the case of a minority of leukaemic patients and the possible clinical therapeutic potential of these cells following in vitro IL-2 activation deserve further investigation.     

Culture-induced changes in osmolality of tobacco cell suspensions using four exogenous sugars

Suspension cultures of tobacco cells were grown in B5 media supplemented with sucrose, glucose, mannitol and sorbitol as exogenous sugars to examine culture-induced changes in the osmolality of the medium. Osmolality decreases were greatest in sucrose and glucose media during the 14 days in culture, and in glucose media were essentially linear, presumably reflecting the use of this sugar as a food source. Osmolality decreases occurred during the first week of culture in mannitol- and sorbitol-supplemented media, but later stabilized. Fresh weight of cultured cells in sucrose- and glucose-supplemented media increased by <200% during 14 days in culture, whereas cultured cells in mannitol- and sorbitol-supplemented media increased by only 39 and 48%, respectively. Cells transferred to the original liquid medium (B5 medium with 3% sucrose and 3% glucose) grew vigorously if they had been cultured in sucrose- and glucose-supplemented media; however, cells grown in mannitol- and sorbitol-supplemented media needed to be subcultured several times to recover their normal growth rate. By subculturing cells into increasingly higher conditions of sugars, cells tolerant to 560 mOsmol kg-1 H2O were obtained. The high osmolality-adapted cells increased by 140% in fresh weight in 8% glucose-supplemented medium. Glucose was best suited for producing the high osmolality required because sucrose concentrations at 10% sucrose and above resulted in cell death. To limit the decrease of osmolality in these suspension cultures requires changing the medium every 3 days to maintain osmolality above the 530 mOsmol kg-1 H2O needed to co-culture these as feeder cells with gametic and zygotic cells. This revised version was published online in June 2006 with corrections to the Cover Date.     

A serum-free defined medium for retinal pigment epithelial cells

Human and bovine RPE cells underwent changes in morphology and culture doubling times when passaged in serum-supplemented medium (CM). Furthermore, late passage human RPE cells subcultured in CM medium increased synthesis of three acidic, 43 000–63 000 D proteins. In order to provide a controlled environment for the study of RPE cells in vitro, we have devloped a method for growing human and bovine RPE in a serum-free defined medium (DM). RPE cells grown in DM required a 24 h pretreatment with CM to allow the cells to attach and spread on the substrate. Cells grown in DM retained an epithelioid morphology, a stable culture doubling time, and similar 2-D PAGE patterns through several subculturings.     

Selective control of fibroblast proliferation and its effect on cardiac muscle differentiation in vitro

The stability of the differentiated state of cardiac myocytes in vitro was examined under culture conditions which selectively stimulated or inhibited proliferation of fibroblasts. Regulation of fibroblast proliferation in cultures of myocardial cells from 8-day embryonic chicks was achieved by adjustment of the glutamine (Gln) concentration in the culture medium (Ham's F-12 medium containing 2 x amino acids and 5% fetal calf serum). Myocardial cells, when plated at 80 cells/mm2 in Gln- medium, maintained a stable density of approximately 40% of the plating density for more than 30 days. When Gln was added to the medium (292 micrograms/ml) fibroblast proliferation was stimulated, and by 5-6 days after this addition cell densities had increased to confluency. The selective action of glutamine on fibroblast proliferation was determined by labeling cultures with tritiated thymidine ([3H]TdR) and scoring its incorporation into myocytes and fibroblasts by radioautography. After 2 weeks in Gln- medium, the mitotic index was 0.3% and the [3H]TdR-labeling index (1.5-hr pulse) was 6.4%. In addition, the proportion of myocytes in the population was constant at 64.2% for at least 30 days in vitro, and contractile activity was observed for up to 6 months. After 5 days of Gln replacement, the cells exhibited a labeling index of 25%, the proportion of myocytes decreased to less than 10% and contractile activity was rarely observed. Although the [3H]TdR-labeling index of fibroblasts and myocytes was nearly identical in Gln- medium, the addition of Gln produced a fivefold stimulation in the fibroblast labeling index, but did not affect myocyte proliferation or DNA synthesis. A unique phenomenon of myocyte congregation was observed only in Gln- medium which resulted in the formation of myocyte colonies from which fibroblasts were largely absent. It is suggested that this process with the resultant establishment of a functional electrical syncytium plays a significant role in the development and stabilization of myocyte differentiation in vitro.     

Cytochrome P-450 and the activation of promutagens in Saccharomyces cerevisiae.

In Saccharomyces cerevisiae the cellular content of cytochrome P-450 was investigated and shown to be related to the growth phase of aerobic cultures when glucose was the carbon source. When grown on glucose medium the log-phase cells of the diploid strain D5 contained about 9× more cytochrome P-450 than log-phase cells of the diploid strain D4. The D4 cells grown on medium containing glucose contained about 10× more cytochrome P-450 than D4 cell grown on medium containing galactose as carbon source. Cells of strain D4, harvested from log-phase cultures grown on glucose, were capable of metabolizing aflatoxin B₁, dimethylnitrosamine, β-naphthylamine, ethyl carbamate, cyclophosphamide and dimethylsulphoxide to products active genetically in the same cells. The metabolism of the compounds tested was attributed to cyctochrome P-450-dependent mixed-function oxidation since genetic activity was high in log cells grown on medium containing glucose but negligible in log cells grown on medium containing galactose. However, aflatoxin B₁ differed from the other promutagens tested since the genetic activity of this compound in cells grown on galactose medium was similar to the activity in cells grown on glucose medium. This result is discussed in relation to enzyme systems which could metabolize aflatoxin B₁. The results of treating log-phase cells of the strain D5, grown on medium containing glucose, with aflatoxin B₁ and dimethylnitrosamine are presented and compared with the results from the strain D4.     

Relationships between in vitro selenium supply, glutathione peroxidase activity, and phagocytic function in the HL-60 human myeloid cell line

Utilizing the HL-60 human promyelocytic leukemia cell line cultured in defined medium, we examined the quantitative and temporal relationships between Se supply and the activity of the selenoenzyme glutathione peroxidase, as well as the effects of selenium deficiency on phagocytic function. Glutathione peroxidase activity depended on the medium Se concentration up to 2.6 X 10(-8) M (sodium selenate, 5 ng/ml), above which a plateau occurred. HL-60 cells grown in medium without Se supplementation became GSH peroxidase deficient, with activity 1-3% that of Se-replete cells. Replenishment of the medium with sodium selenate returned enzyme activity to 23% that of replete cells by 24 h and to 85% by 7 days, a process blocked by cycloheximide. Se-deficient HL-60 cells induced to granulocytic differentiation by dimethylformamide showed decreased hexose monophosphate shunt activity in response to phorbol myristate acetate and to an exogenous enzymatic H2O2-generating system. However, Se-deficient and -replete cells showed equal responses to methylene blue, which stimulates the shunt independently from the glutathione cycle. Se-deficient mature HL-60 cells stimulated with phorbol myristate acetate released 2.3-fold more H2O2 than Se-replete cells and only slightly (not significantly) less O2. Se-deficient and -replete differentiated HL-60 cells did not differ significantly in their capacities for cell motility or for ingestion of serum-opsonized bacteria. Differences between the findings of the present study and previous in vivo rat studies may reflect both the defined in vitro environment of the cell line and the inverse ratios of catalase and glutathione peroxidase activities in human and rat granulocytes.     

Production of buffalo embryos using oocytes from in vitro grown preantral follicles

The present study examines the use of buffalo preantral follicles as a source of oocytes for in vitro embryo production. Preantral follicles were isolated from abattoir-derived buffalo ovaries and were grown for 100 days in five different culture systems: (1) minimum essential medium (MEM); (2) coconut water; (3) MEM + ovarian mesenchymal cell (OMC) co-culture; (4) MEM + granulosa cell (GC) co-culture; or (5) MEM + cumulus cell (CC) co-culture. Low growth rates for the preantral follicles were observed when follicles were cultured in MEM or coconut water medium. Moderate growth rates were seen for OMC and GC co-cultures, and high rates of growth were observed when follicles were grown in CC co-culture. The survival of preantral follicles was low in the MEM culture (<25%), but was over 75% in the other culture systems. Oocytes were not recovered from the MEM group, while an oocyte recovery rate of 80-100% was observed when the follicles were cultured with coconut water/somatic cells. Transferable embryos could be produced only with the oocytes obtained from preantral follicles grown in the OMC and CC co-culture systems. This study demonstrates, for the first time, that it is possible to produce buffalo embryos by in vitro fertilization of oocytes derived from in vitro grown preantral follicles.     

Suppression of microtubule dynamic instability and treadmilling by deuterium oxide

Deuterium oxide (D(2)O) is known to promote the assembly of tubulin into microtubules in vitro, to increase the volume of mitotic spindles and the number and length of spindle microtubules, and to inhibit mitosis. Reasoning that its actions on cellular microtubules could be due to modulation of microtubule dynamics, we examined the effects of replacing H(2)O with D(2)O on microtubule dynamic instability, treadmilling, and steady-state GTPase activity. We found that replacing 50% or more of the H(2)O with D(2)O promoted microtubule polymerization and stabilized microtubules against dilution-induced disassembly. Using steady-state axoneme-seeded microtubules composed of pure tubulin and video microscopy, we found that 84% D(2)O decreased the catastrophe frequency by 89%, the shortening rate by 80%, the growing rate by 50%, and the dynamicity by 93%. Sixty percent D(2)O decreased the treadmilling rate of microtubules composed of tubulin and microtubule-associated proteins by 42%, and 89% D(2)O decreased the steady-state GTP hydrolysis rate by 90%. The mechanism responsible for the ability of D(2)O to stabilize microtubule dynamics may involve enhancement of hydrophobic interactions in the microtubule lattice and/or the substitution of deuterium bonds for hydrogen bonds.     

Heat injury and repair in Campylobacter jejuni

A procedure for detecting and quantitating heat injury in Campylobacter jejuni was developed. Washed cells of C. jejuni A7455 were heated in potassium phosphate buffer (0.1 M, pH 7.3) at 46 degrees C. Samples were plated on brucella agar supplemented with Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate and on a medium containing brilliant green, bile, Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate. Colonies were counted after 5 days of incubation at 37 degrees C in an atmosphere containing 5% O2, 10% CO2, and 85% N2. After 45 min at 46 degrees C, there was virtually no killing and ca. two log cycles of injury. Cells grown at 42 degrees C were more susceptible to injury than cells grown at 37 degrees C. The addition to brucella agar supplemented with Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate of three different antibiotic mixtures used in the isolation of C. jejuni from foods or clinical specimens did not prevent recovery of heat-injured C. jejuni. Cells lost 260 nm of absorbing materials during heat injury. The addition of 5% NaCl or 40% sucrose to the heating buffer prevented leakage but did not prevent injury. Of the additional salts, sugars, and amino acids tested for protection, only NH4Cl, KCl, and LiCl2 prevented injury. Heat-injured C. jejuni repaired (regained dye and bile tolerance) in brucella broth supplemented with Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate within 4 h. Increasing the NaCl in this medium to 1.25% inhibited repair, and increasing it to 2% was lethal. Heat-injured C. jejuni will repair at 42 degrees C but not at 5 degrees C.     

Heat injury and repair in Campylobacter jejuni.

A procedure for detecting and quantitating heat injury in Campylobacter jejuni was developed. Washed cells of C. jejuni A7455 were heated in potassium phosphate buffer (0.1 M, pH 7.3) at 46 degrees C. Samples were plated on brucella agar supplemented with Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate and on a medium containing brilliant green, bile, Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate. Colonies were counted after 5 days of incubation at 37 degrees C in an atmosphere containing 5% O2, 10% CO2, and 85% N2. After 45 min at 46 degrees C, there was virtually no killing and ca. two log cycles of injury. Cells grown at 42 degrees C were more susceptible to injury than cells grown at 37 degrees C. The addition to brucella agar supplemented with Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate of three different antibiotic mixtures used in the isolation of C. jejuni from foods or clinical specimens did not prevent recovery of heat-injured C. jejuni. Cells lost 260 nm of absorbing materials during heat injury. The addition of 5% NaCl or 40% sucrose to the heating buffer prevented leakage but did not prevent injury. Of the additional salts, sugars, and amino acids tested for protection, only NH4Cl, KCl, and LiCl2 prevented injury. Heat-injured C. jejuni repaired (regained dye and bile tolerance) in brucella broth supplemented with Na2S2O3, FeSO4 X 7H2O, and sodium pyruvate within 4 h. Increasing the NaCl in this medium to 1.25% inhibited repair, and increasing it to 2% was lethal. Heat-injured C. jejuni will repair at 42 degrees C but not at 5 degrees C.