Characterization of the temperate bacteriophage phi adh and plasmid transduction in Lactobacillus acidophilus ADH.

Lactobacillus acidophilus ADH is lysogenic and harbors an inducible prophage, phi adh. Bacteriophage were detected in cell lysates induced by treatment with mitomycin C or UV light. Electron microscopy of lysates revealed phage particles with a hexagonal head (62 nm) and a long, noncontractile, flexible tail (398 nm) ending in at last five short fibers. Phage phi adh was classified within Bradley's B1 phage group and the Siphoviridae family. The phi adh genome is a linear double-stranded DNA molecule of 41.7 kilobase pairs with cohesive ends: a physical map of the phi adh genome was constructed. A prophage-cured derivative of strain ADH, designated NCK102, was isolated from cells that survived UV exposure. NCK102 did not exhibit mitomycin C-induced lysis, but broth cultures lysed upon addition of phage. Phage phi adh produced clear plaques on NCK102 in media containing 10 mM CaCl2 at pH values between 5.2 and 5.5. A relysogenized derivative (NCK103) of NCK102 was isolated that exhibited mitomycin C-induced lysis and superinfection immunity to phage phi adh. Hybridization experiments showed that the phi adh genome was present in the ADH and NCK103 chromosomes, but absent in NCK102. These results demonstrated classic lytic and lysogenic cycles of replication for the temperate phage phi adh induced from L. acidophilus ADH. Phage phi adh also mediates transduction of plasmid DNA. Transductants of strain ADH containing pC194, pGK12, pGB354, and pVA797 were detected at frequencies in the range of 3.6 x 10(-8) to 8.3 x 10(-10) per PFU. Rearrangements or deletions were not detected in these plasmids as a consequence of transduction. This is the first description of plasmid transduction in the genus Lactobacillus.

Genetic transfer systems for delivery of plasmid deoxyribonucleic acid to Lactobacillus acidophilus ADH: conjugation, electroporation, and transduction.

Lactobacillus acidophilus ADH is a bacteriocin-producing human isolate that adheres to human fetal intestinal cells and human ileal cells. We have employed both electroporation and conjugation methodologies to transfer various plasmids to L. acidophilus ADH. Furthermore, we have demonstrated transduction of plasmid DNA within this strain by a temperate bacteriophage (phi adh) harbored by L. acidophilus ADH. Plasmid pGK12 was introduced into strain ADH by electroporation at frequencies as high as 3.3 X 10(5) transformants/micrograms of plasmid DNA. Transconjugants of strain ADH were recovered at frequencies of 10(-2) (pAMB1), 10(-4) (pVA797::Tn917), and 10(-4) (pVA797) per donor cell after filter-mating with Lactococcus lactis ssp. lactis. Plasmid pGK12 was transduced from a phage phi adh lysogen into a recipient strain of L. acidophilus ADH at an average frequency of 3.4 X 10(-8) transductants/pfu. Transformants, transconjugants, or transductants were verified by both phenotype and plasmid profile for acquisition of plasmid DNA. The ability to transfer plasmids and mobilize DNA sequences by electroporation, conjugation, and transduction will augment our efforts to define and characterize the activities of L. acidophilus in the intestinal tract.

Multilineage synergistic activity produced by a murine adherent marrow cell line.

We reported previously that a cell line (TC-1) derived from adherent marrow cells produced colony-stimulating factor 1 (CSF-1) and a separate activity that acts synergistically with CSF-1 to stimulate giant macrophage colonies. We now report that an activity in TC-1 conditioned media (CM) separate from CSF-1 also synergizes multilineage colony formation by pure interleukin 3 (IL 3) and a crude source of granulocyte-macrophage colony-stimulating activity (GM-CSA) (murine lung-conditioned media). IL 3-induced megakaryocyte colony formation is also synergized. The CSF-1-dependent synergistic activity is not blocked by antibodies to IL 3 and is characterized as a nondialyzable (mol wt cutoff 3,000), heat-stable (56 degrees C, 30') activity that binds to DE-52 cellulose under conditions in which IL 3 does not. This material has an apparent mol wt of approximately 200,000 by Sephadex G100 chromatography, and the bulk of it binds to Concanavalin A (Con A) and elutes off with alpha-methyl mannoside, indicating that it is a glycoprotein. As reported separately, these purified active fractions also have a pre-B cell-inducing activity. In addition, a non-IL 3 activity stimulates proliferation of the factor-dependent cell lines FDC-P1 and DA-1. These data indicate that an adherent marrow cell line produces a growth factor(s) that synergizes with IL 3, GM-CSA, and CSF-1 and induces pre-B cell formation. This may be an important regulator of early multilineage lymphohemopoiesis.

Vitamin D-dependent calcium-binding protein of mouse yolk sac. Biochemical and immunochemical properties and responses to 1,25-dihydroxycholecalciferol.

The present studies were performed to further characterize a mouse yolk sac protein which is similar or identical to the vitamin D-dependent intestinal calcium-binding protein (CaBP). Yolk sac protein and purified rat intestinal CaBP displayed full identity upon immunodiffusion (Ouchterlony) using antiserum to the rat intestinal CaBP. Immunoreactive CaBP in yolk sac homogenates eluted from gel permeation columns with the low molecular weight peak of 45Ca2+ binding (Chelex assay), and the electrophoretic mobility of the protein was markedly increased by EDTA. On days 11-13 of gestation, the concentrations of immunoreactive CaBP in yolk sac were 4-5-fold higher than in placenta; by days 16-17, the concentrations in yolk sac and placenta were similar. Incubation of yolk sac with [3H]leucine demonstrated synthesis of immunoprecipitable [3H]CaBP. A single band of 3H-labeled protein was seen on sodium dodecyl sulfate gel electrophoresis of the immunoprecipitate. This protein co-migrated with radioactive placental CaBP with an apparent Mr of 10,050. Addition of 1,25-dihydroxycholecalciferol (calcitriol) to organ culture media with or without serum increased the amount and concentration of CaBP in yolk sac (p less than 0.001) at 48 h. CaBP synthesis in yolk sac appeared to be independent of calcitriol concentrations in the maternal circulation since injection of the hormone into the maternal compartment produced no change in yolk sac CaBP despite increases of maternal intestinal and renal CaBP. These studies demonstrate that yolk sac immunoreactive CaBP is synthesized in yolk sac and has an apparent molecular size and calcium-binding properties characteristic of mammalian vitamin D-dependent calcium-binding proteins. The in vitro response of yolk sac CaBP to calcitriol is the first evidence of a vitamin D effect on the fetal membranes and suggests one function for calcitriol receptors in these tissues.

Immunochemical localization of vitamin D-dependent calcium-binding protein in mouse placenta and yolk sac.

A 10,000-dalton calcium-binding protein (10-kd CaBP) has been described in the placentae and yolk sacs of rats and mice. This protein is similar or identical to vitamin D-dependent intestinal CaBP and these proteins have been implicated in the molecular mechanisms of intestinal calcium absorption and transplacental calcium transport. Using an antiserum to the purified 10-kd rat intestinal CaBP, the localization of CaBP in the 16-17-day mouse yolk sac and placenta was studied immunocytochemically with peroxidase-antiperoxidase labelling and quantified by radial immunodiffusion. A high concentration of immunolabelling was observed in the endodermal cells of the intraplacental yolk sac lining the sinuses of Duval. The columnar endodermal cells lining one side of the endodermal sinuses adjacent to fetal vessels contained most of the immunoreactive label. Quantitation by radial immunodiffusion demonstrated a 5.5-fold higher concentration of CaBP in the portion of the placenta containing most of the intraplacental yolk sac than in the maternal half of the placenta. This demonstration of a 10-kd CaBP within the intraplacental yolk sac suggests this protein functions to facilitate placental calcium transport and is the first study which directly supports the hypothesis of a functional role for the sinuses of Duval in calcium transport.

Bone marrow adherent cell hemopoietic growth factor production.

These data suggest that two types of radioresistant adherent stromal cells are adequate for maintenance of long term hemopoiesis in the Dexter culture system. One cell type appears to be a typical adherent macrophage while the other is an alkaline phosphatase positive epitheloid cell possibly representative of the adventitial reticular cell of the bone marrow. These two cell types seem to be clearly defined by the in-vivo irradiation studies and less clearly defined in the in-vitro irradiation experiments. These data do not exclude other cell types as playing important roles in modulating hemopoiesis but do suggest that these major types are probably playing important roles in maintaining stem cells in long term liquid cultures. In addition, data suggests that the epitheloid cell directly nurtures hemopoietic cells on its surface while the macrophages may serve a separate function. A number of growth factors are produced by these two cell types which appear to include CSF-1, a granulocyte CSA separate from CSF-1 and a megakaryocyte CSA separate from both the GM-CSA and CSF-1 (Table 5). Thus the present data suggest that there are at least three (formula; see text) separate hemopoietic growth factors produced. The FDC-P1 activity produced by irradiated stroma would appear most likely to be GM-CSA-II. The fact that lectins enhanced production of these activities is intriguing but the cell type on which the lectins are acting has not as yet been defined. It appears that lithium also acts upon adherent marrow stromal cells to induce production of myeloid regulatory growth factors. Lithium appears to stimulate both normal and irradiated stroma to produce hemopoietic maintenance and growth factors and the present data suggests that factors active on pre IL-3 cells, HPP-CFC, CFU-D, CFU-meg, and CFU-S are all induced from these stromal cells by lithium. Whether the lithium induced factors and the factors derived from irradiated stroma represent a number of different growth factors or one or two critical regulatory molecules is at present unclear. The synergistic activity derived from the TC-1 cell line is of particular interest in this regard. This CSF-1 dependent activity is capable of acting on a very primitive stem cell to induce impressive proliferation and differentiation. In addition an activity in TC-1 conditioned media which may be synergistic activity appears capable of inducing adherent marrow cell lines which then can subsequently produce more of the same factor, a classic autocrine system.(ABSTRACT TRUNCATED AT 400 WORDS)

Studies on the regulation of hemopoiesis.

Normal hemopoietic cell differentiation and proliferation is critically dependent upon marrow stromal elements. Long-term liquid culture of marrow provides a model for the study of stromal function. We evaluated the effects of radiation and 5-fluorouracil (5-FU) on various aspects of long-term murine hemopoietic cell growth and stromal function. Exposure of C57BL/6J murine adherent cells from long-term marrow cultures to varying doses of irradiation (0-1000 rad) in vitro resulted in the elaboration of growth factors stimulating granulocyte, macrophage, megakaryocyte, mixed megakaryocyte-granulocyte macrophage, and blast colonies. This increased production of growth factors appears to be related to the ablation of normal granulocyte production in the culture system since addition of normal stroma to irradiated stroma blocks growth factor production. Two cell types appear to be mediating stromal factor production and support of liquid culture hemopoiesis: a macrophagelike cell and an alkaline-phosphatase-positive epithelioid cell. Exposure of these two cell types to pokeweed mitogen results in marked enhancement of growth factor production. Furthermore, a cell line isolated from normal murine stroma produced an activity capable of acting at an early hemopoietic stem cell level and of inducing secondary marrow cell lines. The establishment of cultures from 5-FU-treated animals revealed that chemotherapy-depleted marrow was capable of establishing adequate stromal function and that the residual surviving stem cells had a higher than normal proliferative rate. In addition, the function of granulocytes derived from this post-5-FU marrow was normal. Thus, it appears that both chemotherapy and radiation exposure of marrow results in an enhanced capacity of stromal elements to produce growth factors and support hemopoiesis and that post-5-FU marrow represents an enriched source of high proliferative potential bone marrow stem cells.

Adherence of Lactobacillus species to human fetal intestinal cells.

Thirty-two lactobacilli were tested for ability to adhere to a human fetal intestinal epithelial cell line. By an in vitro system, two adherence mechanisms were found. One mechanism, requiring calcium in the adherence reaction, was nonspecific and allowed all lactobacilli tested to adhere. The other system, not requiring calcium, was found in four strains, all human Lactobacillus acidophilus isolates. Colonial morphology, serial broth passage, and exposure of cell crops to freezing or lyophilization did not affect adherence of Lactobacillus acidophilus. In vitro adherence, combined with subsequent in vivo studies, may provide a basis for screening candidate organisms for use in microbiotic supplements.

Growth Characteristics, Bile Sensitivity, and Freeze Damage in Colonial Variants of Lactobacillus acidophilus.

Rough (R) and smooth (S) colonial variants were isolated from a heterogeneous culture of Lactobacillus acidophilus RL8K. R and S types were stable upon repeated transfer on agar, but revertant colonies did appear after broth transfers. When propagated in commercial MRS broth, R and S cultures showed similar growth characteristics, and both cell types were insensitive to freezing and frozen storage at -20 degrees C. Alternatively, during growth in scratch MRS broth, R cultures shifted to a reduced rate of growth during the late logarithmic phase. R cells grown under these conditions were susceptible to death by freezing and injury at -20 degrees C. Microscopically, R cells were observed as long gram-positive rods with small nonstainable blebs protruding from the cell wall. In bile sensitivity studies of R and S cells plated on MRS agar plus oxgall, the S culture was resistant to 1% bile, whereas the R culture was sensitive to 0.6% bile. Differences in the bile resistance and freeze damage of R and S cells suggest that colonial and cellular morphologies are important considerations for the selection of Lactobacillus strains as dietary adjuncts and for the development of growth conditions for preparing frozen concentrated cultures from either cell type.

Adherence as a method of differentiating virulent and avirulent strains of Vibrio parahaemolyticus.

Usually only Kanagawa-positive strains of Vibrio parahaemolyticus are considered virulent; yet, a significant portion of V. parahaemolyticus food poisonings appear to be caused by Kanagawa-negative strains. Therefore, additional and more accurate measurements of a strain's food-poisoning potential are needed. Adherence of V. parahaemolyticus to human fetal intestinal (HFI) cells in vitro seems to offer this information. All strains of V. parahaemolyticus adhered to the HFI cells, but the degree of adherence was related to a number of factors. These included the age of the culture, the strain's Kanagawa reaction and source, the length of time the bacteria were exposed to the HFI cells, and the composition of the growth medium. Cells harvested during the late log phase of growth adhered more intensely than those harvested from the late stationary phase. Virulent strains, i.e., those involved in food poisoning, were observed to have a high adherence ability regardless of their Kanagawa reaction, whereas Kanagawa-negative strains isolated from seafood exhibited weak adherence intensities. Kanagawa-positive strains isolated from seafood adhered strongly to the HFI cells. The difference between the virulent and avirulent strains was quantitative in nature, and the greatest differences in adherence intensities were observed after short (10 to 15 min) exposure times. The presence of ferric iron in the growth medium was found to increase the adherence intensities of the virulent strains.