Production of tumor necrosis factor-alpha by naive or memory T lymphocytes activated via CD28.

While it is well established that activated T cells can produce tumor necrosis factor alpha (TNF-alpha), it is less clear whether this function is confined to a given subset, e.g., memory cells. To approach this question, we investigated the production of TNF-alpha by human peripheral blood T lymphocytes activated with anti-CD28 mAb since this activation pathway is known to potentiate cytokine production. Under the culture conditions used, the amount of TNF-alpha produced was markedly enhanced compared to that obtained after activation with immobilized anti-CD3 mAb. The enhancement of TNF-alpha production was already apparent after incubation of T cells for 6 hr. Up to 5 ng/ml of TNF-alpha was measured on Day 2 in supernatants of cultures of 10(4) T lymphocytes. To determine the source of the cells producing high amounts of TNF-alpha, T lymphocytes were separated into two subpopulations, namely naive cells (expressing the CD45RA isoform) and memory cells (expressing the CD45RO isoform). While both subpopulations proliferated equally well after stimulation with anti-CD28 mAb, up to 90% of the TNF-alpha produced under these conditions originated from memory T cells. These results thus document that T cell activation via CD28 results in a marked increase in TNF-alpha production without affecting the functional disparity that exists between naive and memory T cells.     

Quantitative aspects of granulocytic progenitor cell (CFUc) mobilization from extravascular sites in dogs using dextran sulphate (DS)

Abstract. The relationship between the increase in the blood CFUc concentration after intravenous injection of dextran sulphate (DS) and the pre-existing levels of spontaneously circulating CFUc was studied in dogs. After 15 mg DS/kg body weight the CFUc numbers per ml blood rose by a factor of 3.7 over the pre-injection values, from 78 ± 11 (SEM) to 359 ± 50, in normal dogs, and increased by a factor of 3.9 in 0.84-Gy-r-irradiated animals which had a reduced initial CFUc concentration per ml, from 35 ± 8 to 116 ± 43. The injection of 20 mg DS/kg body weight into unirradiated dogs caused an increase, by a factor of 11.5, of the pre-injection CFUc concentration, from 101 ± 20 to 921 ± 106. On the basis of the mobilization curves for individual dogs, a significant correlation was found between the normal blood CFUc value and the number of CFUc mobilized by DS for both dose levels. From the descending part of the mobilization curves obtained after 15 mg DS/kg body weight, kinetic parameters of canine circulating CFUc were derived. The mean blood transit time (τ) was 1.4 ± 0.5 hr and the half time ( T /2) was 1.0 ± 0.4 hr.     

Survival of transfused cryopreserved granulocytic progenitor cells (CFU-C) in recipient circulation

We have studied the pattern of CFU-C disappearance from the peripheral blood of normal and total-body-irradiated dogs given cryopreserved cell suspensions from bone marrow, foetal liver and peripheal blood containing known numbers of CFU-C under an autologous and allogeneic donor-recipient relationship. Only a small fraction of infused donor CFU-C could be detected in the circulation of recipients at the end of the infusion. There was an exponential fall in circulating CFU-C, indicating random loss of infused CFU-C. The CFU-C disappearance pattern in each experimental group was reproducible. The mean half life of autologous blood derived CFU-C in the circulating blood of normal recipients was 8.2 min and the mean blood CFU-C turnover was calculated to be 9.3 X 10(5) CFU-C/kg per day.     

Blood leukocyte responses to extracorporeal circulation. I. Short term extracorporeal circulation in dogs without and with extracorporeal irradiation

Short term (1 h) extracorporeal circulation without or with irradiation of blood was performed in two normal dogs in a series of experiments. The granulocyte count was constantly diminished, while the lymphocytes did not show any particular change in their concentration. In the majority of the experiments a decrease of the CFU-C content occurred to less than 70% of the initial level. There was no difference in the results of experiments with or without irradiation. In the "bag to bag" procedures, no significant change in the blood leukocyte counts including CFU-C, was established.     

Harvesting of granulocytes for granulocyte transfusion by means of continuous flow centrifugation or filtration leukapheresis]

More than 10(10) viable granulocytes are necessary for a therapeutical effective granulocyte transfusion. This number of cells can be harvested from normal donors by two techniques basing on different principles: continuous flow centrifugation (CFC) and filtration leucapheresis (FL). Our studies demonstrated that, under certain special conditions, the separation potentials of both methods are comparable yielding 2.5 to 3.0 X 10(10) granulocytes within 4 hrs. Granulocyte collection rate was optimal if donors were treated with dexamethasone during 16 hrs prior to the state of the procedure. However, the costs of CFC exceed those of FL by a factor of about two. The increased occurrence of side effects attributed to the transfusion of FL-granulocytes can be reduced to the level of CFC-granulocytes by repetitive filtration-elution leucapheresis minimizing cell damage. The studies define the efficiency spectrum of CFC which in addition to granulocyte separation includes collection of thrombocytes, cells for immunotherapy, and plasmapheresis.     

Allogeneic bone marrow transplantation in conventional mice: I. Effect of antibiotic therapy on long term survival of allogeneic chimeras.

In the present communication the beneficial effect of long term antimicrobial treatment with poorly absorbable antiboitics on the survival of allogeneic bone marrow chimeras was investigated. The combination of C57Bl mice as bone marrow donors and CBA/CA mice as irradiated recipients (800 rad) was used because of their strong histoincompatibility on the H-2 loci. All allografted recipients received 10 X 10(6) bone marrow cells. The majority of the recipients, which were rendered gnotobiotic by an antimicrobial treatment, achieved stable long term chimerism. In contrast, the conventional chimeras died from secondary disease within 9 weeks after transplantation. As early as 14 days after allogeneic bone marrow grafting the gnotobiotic recipients tolerated the reassociation with a conventional microflora without a change in the rate of mortality. Bone marrow cells (8 X 10(6) i.v.) and spleen cells (2 X 10(6) i.v.) collected from allogeneic chimeras failed to induce graft-versus-host-reaction (GVH) in a second lethally irradiated host. The data indicate, that the high rate of mortality in murine allogeneic bone marrow chimeras results from delayed GVH-reaction and systemic infection. The marrow graft, once established seems to exert tolerance against the allogeneic host. The pathogenesis of the systemic infection has not yet been worked out. It is assumed that it originates from bacteremia, induced by radiation dependent lesions of the epithelial integrity and defected lymphatic tissue in the gut.