The origin of cytotoxic T lymphocyte precursors (CTL-P): MHC-restricted and alloreactive CTL-P in the spleen during regeneration after a sublethal dose of cyclophosphamide (Cy)

The regenerating spleen 8 days after an injection of a sublethal dose (300 mg/kg) of cyclophosphamide (Cy) had a defective capacity to give rise to cytotoxic T lymphocytes (CTL) in response against allogeneic cells, whereas the cytotoxicity against 2,4,6-trinitrophenyl-(TNP) modified syngeneic cells was at the normal level. Alloresponse was first obtained 2 wk after the Cy treatment. The limiting dilution analysis showed this at the clonal level: the frequency of anti-TNP-specific CTL precursors (CTL-P) in the spleen treated with Cy 8 days previously was the same as the frequency in the normal spleen. The defective alloresponse was due to a decreased number of allospecific CTL-P that was later increasing. The regenerative capacity was not abolished by adult thymectomy or treatment of the mice with a bone marrow-seeking isotope, 89Sr, suggesting that these CTL-P are derived from Cy-resistant splenic precursors rather than from the thymus or bone marrow. These precursors have probably been under thymic education: the dominance of H-2k-restricted CTL over H-2d-restricted CTL in the response of (H-2k X H-2d)F1 mice to TNP-self is known to be influenced by the H-2 genotype of the thymus, and this dominance was also demonstrated with anti-TNP CTL derived from these F1 mice pretreated with Cy. The CTL-P in the regenerating spleen (day 8) were not hydrocortisone sensitive, and nylon wool-purified T cells from this stage had a lactate dehydrogenase (LDH) isoenzyme pattern of the mature T cell type (rather than of the thymocyte type). Thus, in these aspects the T cells of the regenerating spleen resembled normal splenic cells. These data suggest that the Cy-resistant spleen population contains cells that can give rise to CTL-P that have a defective specificity repertoire at the beginning of the regeneration, but later mature to a normally alloreactive population.     

Limiting dilution analysis of alloantigen-reactive T lymphocytes. III. Effect of priming on precursor frequencies.

The effect of specific priming with alloantigens on the frequency of cytolytic T lymphocyte precursors (CTL-P) has been investigated. Alloimmune lymphoid cells were obtained from the spleen of C57BL/6 (H-2b) mice primed with DBA/2 (H-2d) tumor cells or from 14-day unidirectional mixed leukocyte cultures (C57BL/6 anti-DBA/2). CTL-P frequencies directed against H-2d alloantigens were estimated by limiting dilution analysis in a sensitive micro MLC system. Under these conditions, an apparent increase of 3 to 4-fold in CTL-P frequency was observed in alloimmune (as compared with normal) C57BL/6 spleen cells. Evidence was obtained suggesting that this increase was specific for the priming alloantigens. A much greater increase in CTL-P frequency (25 to 100-fold) was observed after alloimmunization of C57BL/6 spleen cells in unidirectional MLC. Under the latter conditions, 5 to 20% of the surviving splenic MLC cells could be identified operationally as CTL-P. A similar enrichment in CTL-P frequency was obtained when lymph node, peripheral blood, or thymus cells were cultured for 14 days in MLC. These studies provide direct evidence that the pool of specific CTL-P can be expanded after alloimmunization. Furthermore, the very high frequencies observed after in vitro priming indicate that this system should be particularly useful for future studies of the progeny of individual CTL-P.     

Repopulation of the mouse thymus after sublethal fission neutron irradiation. I. Sequential appearance of thymocyte subpopulations

The T cell composition of the thymus of sublethal fission neutron-irradiated CBA/H mice was analyzed with cytofluorometry and immunohistology, using monoclonal antibodies directed to the cell surface antigens Thy-1, T-200, MT-4, Lyt-1, Lyt-2, and MEL-14. The results of this investigation show that whole body irradiation with 2.5 Gy fission neutrons results in a severe reduction and degeneration of the cortex, whereas the medulla is affected to a lesser extent. Irradiation selects, within 24 hr, for a population of dull Thy-1+, bright T-200+, bright Lyt-1+ cells localized in the medulla. Phenotype analysis of the regeneration of the thymus, which starts at about 5 days after irradiation, reveals the sequential appearance of: 1) "null" cells, i.e., lymphoblasts negative for all tested antigens, mainly in the subcapsular area but also in the medulla; 2) Thy-1+ "only" and T-200+ "only" cells in the subcapsular area; 3) Thy-1+, T-200+ cells; and 4) Thy-1+, T-200+, MT-4+, Lyt+ cells in the cortex. In addition, an increased MEL-14 expression is observed in correlation with the expression of Thy-1 and T-200 determinants during the regeneration of the thymus. From day 10 on up to at least 150 days after irradiation, no differences can be observed in the thymus of irradiated and age-matched sham-irradiated control mice, as measured by the expression and distribution of Thy-1, T-200, MT-4, Lyt-1, Lyt-2, and MEL-14 antigens. The observed sequence in phenotype shift in the regeneration of the thymus after irradiation is discussed in view of recently published data on the differentiation of the T cell system.     

Monoclonal antibodies to interferon-gamma inhibit interleukin 2-dependent induction of growth and maturation in lectin/antigen-reactive cytolytic T lymphocyte precursors

In this study we tested the effect of monoclonal antibodies (moAb) AN-18 to murine IFN-gamma on the generation of cytolytic T cells (CTL) from a homogeneous population of precursor cells (CTL-P). As responder cells, highly purified Lyt-2+ C57BL/6 lymph node T cells were used that had been positively selected by flow cytofluorometry on a cell sorter. Lyt-2+ cells were set up in bulk culture or in limiting dilution (LD) either with Con A or with P815 tumor cells as antigen and recombinant human interleukin 2 (rec.hIL 2) in the presence or absence of moAb AN-18 and tested for growth and development of CTL. The results show that moAb AN-18 but not the unrelated moAb AN-37 diminished or abrogated proliferative and cytolytic responses of Lyt-2+ lymphocytes to lectin and rec.hIL 2 in a dose-dependent manner. The inhibitory activity of the antibodies could be abolished by neutralizing moAb AN-18 with recombinant murine IFN-gamma (rec.mIFN-gamma) before their addition to culture. Kinetic analysis shows that the inhibitory effect of moAb AN-18 is only optimal when added at the beginning of culture or up to 48 hr after initiation. The frequencies of CTL-P responding either to Con A or to P815 tumor cells and rec.hIL 2 were reduced up to 10-fold in the presence of moAb AN-18. The inhibitory capacity of moAb AN-18 was also operative in cultures containing on the average one antigen-specific CTL-P. Together with the finding that activated CTL-P secrete IFN-gamma in response to rec.hIL 2 in a dose-dependent manner, the data suggest that endogenous IFN-gamma collaborates with exogenous IL 2 in the induction of CTL-P. The generation of CTL may therefore represent a case of autocrine growth regulation of normal lymphocytes, in which the same cell synthesizes and responds to its own factor.     

Isolation and characterization of novel suppressor T cell clones from murine fetal thymus

Murine fetal thymus from C57BL/6J (B6) and DBA/2J contains a cell population that suppresses CTL responses to alloantigens. This suppressor cell population was found to exist in high frequency in murine fetal thymus at the 14th day of gestation. The activity of this cell in the thymus declined rapidly with increasing time of gestation, and suppressor activity in the thymus was undetectable by the time of birth. On the other hand, suppressor activity could be detected in organ cultures of 14-day fetal thymus even after the organs were cultured for 14 or 21 days. Fetal thymocytes from B6 or DBA/2J mice were grown as long-term lines in interleukin 2 (IL 2)-containing medium. Clones of suppressor cells were derived from long-term cultures by micromanipulation. The clones had an average doubling time of 13 to 16 hr and were dependent on IL 2 for growth. The clones were 10- to 100-fold more efficient in suppressing CTL responses to alloantigens than day 15 fetal thymocytes. Analyses of cell surface molecules with the use of monoclonal antibodies and conventional anti-H-2 sera by radioactive binding assays showed that cloned suppressor cells from B6 fetal thymus were Thy-1 and Lyt-2+, and expressed little or no L3T4, Lyt-1, H-2K, H-2D, and class II molecules. The suppressor clones lacked the cytolytic activity of conventional CTL and also served as very poor target cells in CTL-mediated cytolysis. The suppressor function of the cloned cells was radiation-resistant, and this suppression could not be reversed by the addition of excess exogenous IL 2. The cloned cells suppressed CTL responses only when they were added within the first 48 hr of a 5-day culture period. Analyses of the antigen specificity of the suppressor cells showed that they suppressed CTL responses in a nonantigen-specific manner.     

Limiting dilution analysis of alloantigen-reactive T lymphocytes. IV. High frequency of cytolytic T lymphocyte precursor cells in MLC blasts separated by velocity sedimentation

A sensitive limiting dilution microculture system was used to obtain minimal estimates of the frequency of cytolytic T lymphocyte precursor cells (CTL-P) directed against DBA/2 alloantigens, after priming of spleen cells in unidirectional mixed leukocyte cultures (MLC, C57BL/6 anti-DBA/2). The mean CTL-P frequency in day 4 to 5 MLC populations was found to be approximately 50- to 100-fold greater than the frequency in normal spleen, and up to 25% of the cells present in such MLC could be identified operationally as CTL-P. Even higher frequencies (up to 50%) of CTL-P were obtained in a population of large-sized cells separated from day 4 MLC by velocity sedimentation. Furthermore, since a strikingly quantitative correlation was observed between CTL activity and CTL-P frequency in such separated MLC populations, it is likely that mature CTL in MLC are not end cells, but can further proliferate and thus behave operationally as CTL-P.     

Intrathymic T cell differentiation in radiation bone marrow chimeras and its role in T cell emigration to the spleen. An immunohistochemical study

Immunohistochemical studies were made on the regeneration of T cells of host- and donor-type in the thymus and spleen of radiation bone marrow chimeras by using B10- and B10.BR-Thy-1 congenic mice. Both the thymic cortex and the medulla were first repopulated with thymocytes of irradiated host origin, restoring the normal histologic appearance by days 11 to 14, regardless of the H-2 compatibility between the donor and the host. In Thy-1 congenic chimeras, thymocytes of donor bone marrow origin, less than 100 cells in one thymic lobe, were first recognized at day 7, when the thymus involuted to the smallest size after the irradiation. The thymocytes of donor-type then proliferated exponentially, showing a slightly faster rate when higher doses of bone marrow cells were used for reconstitution, reaching a level of 100 million by day 17 and completely replacing the cortical thymocytes of host origin by day 21. The replacement of cortical thymocytes started from the subcapsular layer in a sporadic manner. The replacement of medullary thymocytes from host- to donor-type occurred gradually between days 21 and 35, after the replacement in the cortex was completed. In the spleen, about 1 million survived cells were recovered at day 3 after the irradiation, and approximately 60% of them were shown to be host-type T cells that were observed in the white pulp areas. The host-type T cells in the spleen increased gradually after day 10, due to the influx of host-type T cells from the regenerating thymus. Thus a pronounced increase of T cells of host-type was immunohistochemically observed in the splenic white pulp between days 21 and 28, when thymocytes of host-type were present mainly in the thymic medulla. These host-type T cells were shown to persist in the spleen for a long time, as long as 420 days after the treatment. Phenotypically, they were predominantly Lyt-1+2+ when examined at day 28, but 5 mo later, they were about 50% Lyt-1+2+ and 50% Lyt-1+2-. Donor-type T cells in the spleen began to appear at about day 14 in chimeras that were transplanted with a larger dose of bone marrow cells, whereas this was slightly delayed in those grafted with a smaller dose of bone marrow cells, starting at about day 28.(ABSTRACT TRUNCATED AT 400 WORDS)     

Ontogeny of cell-mediated cytotoxicity: induction of CTL in early postnatal thymocytes.

In this study we characterized the time when cytotoxic T lymphocytes (CTL) can be induced in the thymus and spleen from their immediate CTL precursors (CTL-P). In contrast to fetal or newborn thymus, the thymus of 1 to 2-day-old C57BL/6 mice contained cells that, after cultivation in vitro with allogeneic DBA/2 stimulating cells, exhibited high levels (as great or greater than that induced in adult thymocytes) of CTL activity as measured by the ability to lyse P815 (DBA/2) tumor target cells. However, CTL activity induced in spleen cells remained how during the first 5 days of life, increased sharply between 6 to 9 days, and reached adult levels at 11 to 20 days. Furthermore, early postnatal spleen cells did not suppress the adult splenic CTL response. These results suggest 1) that the full potential to generate CTL in response to an allogeneic stimulus commences in the thymus on the first day after birth and 2) a different temporal appearance of immediate CTL precursors in the thymus and spleen.     

Stimulator cell requirements for allospecific T cell subsets: specialized accessory cells are required to activate helper but not cytolytic T lymphocyte precursors

Murine cortisone-resistant thymocytes were separated by staining with monoclonal anti-Lyt-2 antibody and FMF into Lyt-2- and Lyt-2+ subsets in order to analyze the nature of stimulator accessory cells required to activate each of these functionally distinct T cell subpopulations. The Lyt-2- fraction was able to proliferate but not to generate cytotoxic cells when stimulated by irradiated allogeneic spleen cells. Fractionation of the stimulator population showed that low numbers of dendritic cells and splenic macrophages, but not equivalent numbers of whole spleen cells or peritoneal macrophages, were able to stimulate the Lyt-2- population. On the other hand, the Lyt-2+ population, which showed little if any proliferation in response to irradiated spleen cells, contained all the precursors of cytolytic T lymphocytes. In contrast to the highly specific stimulator requirement of the Lyt-2- fraction, allospecific cytotoxic cells were generated from Lyt-2+ cells by any alloantigen-bearing stimulator cell provided interleukin 2 was present. This was confirmed by limiting dilution analysis: alloreactive CTL-P frequencies in spleen and thymus were not influenced by the nature of the stimulator cell. These data collectively indicate that heterogeneous Ia+ accessory cells are required to stimulate helper but not cytolytic T cell precursors.     

Regulatory substances produced by lymphocytes. V. Production of inhibitor of DNA synthesis (IDS) by proliferating T lymphocytes.

The conditions neccessary for production of inhibitor of DNA synthesis (IDS) by rat lymphocytes were investigated.In concanavalin A (Con A)-stimulated lymph node cell (LNC) cultures, IDS production was not detected in the culture supernatant during the first 24 hr, and it increased gradually after that to reach a maximum at 3 to 4 days.When the cells were pretreated with mitomycin C, IDS was not produced, suggesting that DNA synthesis of LNC or a LNC subpopulation is necessary for IDS production. In contrast, Con A-stimulated spleen cells priduced a high level of IDS within 24 hr, and its production fell off sharply thereafter. Con A-stimulated rat thymocytes also produced IDS reaching a maximum at 2 to 3 dyas. However, thymus cells from rats treated with hydrocortisone 48 hr previously did not produce IDS. This finding implies that cortisol-sensitive (cortical) thymocytes are capable of producing IDS and cortisol-resistant (medullary) thymocytes are not. IDS production by lymphoblasts was proportional to cell number and unaffected eith by cell density (1 to 10 x 106/ml) or by the concomitant presence of normal cells from spleen, lymph node, or thymus. Thus Con A-stimulated cells, after becoming blasts, appear to produce IDS automatically wihtout affecting or being affected by other cells. Both spleen and thymus cells from rats injected with a large dose of antigen (ovalbumin, 100 mg, i.p.) 24 hr in advance produced substantial amounts of IDS in culture within 24 hr in the absence of mitogen or additional antigen, but not the cells from rats injected with an immunizing dose (1 mg) of the same antigen. The cells producing IDS in the spleen were shown to be adherent to glass wool, and those in the thymus were partially so. IDS production by antigen-stimulated spleen cells was abrogated by injecting rats with bromodexyuridine (BUdR) at 0 and 12 hr after the ovalbumin. These findings suggest that a subpopulation ofadherent spleen cells (possibly resembling cortical thymocytes), which begins to proliferate within a few hours after a large dose of systemic antigen, produces IDS. This may account for increased nonspecific suppressor activity observed at the same time.     

The influence of dexamethasone treatment on the lymphoid and stromal composition of the mouse thymus: a flowcytometric and immunohistological analysis

The effect of injection of a range of doses of dexamethasone on the distribution of T-cell subpopulations and stromal cells in the thymus of BALB/c mice was investigated with flowcytometry and immunohistology. To this purpose we used monoclonal antibodies directed to the T-cell differentiation antigens Thy-1, T200, Lyt-1, Lyt-2, T4, MEL-14, and monoclonal antibodies directed to various classes of stromal cells. Injection of dexamethasone in increasing doses of 5-130 mg/kg body weight gradually leads to a depletion of the cortical thymocyte population, i.e., bright Thy-1 + ve, dull T-200 + ve, bright Lyt-2 + ve, and bright T4 + ve cells. These cortical cells are very dull MEL-14 + and express variable numbers of Lyt-1 molecules. Also the medulla is affected by dexamethasone although to a lesser extent. Dexamethasone injection at 130 mg/kg selects for a dull Thy-1 + ve, bright T-200 + ve, and bright Lyt-1 + ve medullary population. These cells are either T4 + ve Lyt-2-ve or T4-ve Lyt-2 + ve. Under these conditions, MEL-14 + ve cells were no longer present in the cortex but accumulated in medullary perivascular spaces. Staining of sequential sections showed that this particular subpopulation has a typical "helper" phenotype. This observation provides strong evidence that perivascular compartments are an exit pathway for emigrating T cells. The medullary population contains a phenotypically distinct, dexamethasone-sensitive subpopulation. This conclusion is based on two findings: 130 mg/kg dexamethasone depletes the thymus of all but 4% of the thymocytes, which form a much smaller subpopulation than the population of dull Thy-1 + ve cells (amounting to 15% of the total thymocytes). The medulla contains a subpopulation of dull Lyt-2 + ve cells, which are resistant to 20 mg/kg dexamethasone, but depleted by 130 mg/kg. Dexamethasone also has a severe effect on thymic nonlymphoid cells. Even at low doses, dexamethasone induces TR4 + ve cortical epithelial-reticular cells to become spherical ("nurse cell-like") structures, depleted of lymphoid cells. These stromal cells no longer express MHC antigens in a membrane-bound fashion. In contrast, the medullary epithelial cells appear morphologically unaffected even at a dexamethasone dose of 130 mg/kg.     

Direct in vitro inactivation of murine alloreactive cytotoxic-T-lymphocyte precursors by syngeneic nonspecific cytotoxic-T-cell populations

Nonspecific cytotoxic T-cell populations, derived from murine fetal calf serum (FCS)-precultured cells expanded in interleukin 2 (IL-2)-containing supernatant (operationally defined as FCS-CM-expanded cells), were investigated for their inactivating properties on syngeneic lymphoid cell populations containing alloreactive cytotoxic-T-lymphocyte precursors (CTL-P). CTL-P were detected and quantitated in a limiting dilution mixed leukocyte microculture (micro-MLC) system supplemented with IL-2. The data show a dramatic decrease in relevant CTL-P frequency in populations of fresh or Day 2 in vitro-alloactivated peripheral blood leukocytes (PBL) after coculturing them for 24 hr with syngeneic mitomycin C-treated populations of FCS-CM-expanded cells. On the contrary, no decrease in CTL-P frequency was observed when Day 7, instead of fresh or Day 2, in vitro-alloactivated PBL were used as responding cells. Throughout these experiments, it was clearly shown that a decrease or an absence of CTL response in the micro-MLC was neither due to a lack of IL-2 nor to a premature destruction of the stimulating cells by the inhibiting FCS-CM-expanded cells still present in the culture. FCS-CM-expanded cells can destroy (in a 3-hr 51Cr-release assay) Day 2 alloreactive PBL populations, and this raises the possibility that the direct inactivation of CTL-P by FCS-CM-expanded cells could result from their cytolytic activities.     

Subsets of Lyt-2+ cells defined by differential expression of the 9F3 antigen: alterations in mice of the lpr/lpr genotype

Recently, we found that a novel murine cell surface antigen recognized by the 9F3 monoclonal antibody demonstrates T cell heterogeneity in normal mice and in congenic strains homozygous for the lymphoproliferation- and autoimmunity-inducing lpr gene. The objective of the present work was to further characterize this heterogeneity by studying the distribution of the 9F3 marker among Lyt-2+ T cells. By using dual parameter flow cytofluorometry analysis, at least two subsets of peripheral Lyt-2+ cells differing in 9F3 expression could be distinguished. In MRL/Mp-++, C57BL/6, and C3H/HeJ mice, 9F3- and 9F3+ cells accounted, respectively, for 65 to 80% and 20 to 35% of the whole Lyt-2+ population. Interestingly, in lpr/lpr-bearing congenic strains, a three- to fivefold selective increase in the frequency and absolute number of 9F3+ Lyt-2+ cells was found to take place during aging. Functional analysis of Lyt-2+ cells isolated by panning revealed that in +/+ mice, these cells respond better to phytohemagglutinin and concanavalin A than in lpr/lpr mice, indicating that phenotypic changes of Lyt-2+ cells correlate with functional changes. Further evidence for the functional relevance of 9F3-defined Lyt-2+ cell heterogeneity was provided by the study of sorted cells from +/+ mice, showing that 9F3- cells exhibit higher mitogenic reactivities than 9F3+ cells. This finding suggests that 9F3+ Lyt-2+ cells in +/+ and lpr/lpr mice are functionally homologous. Together, these data indicate that, in addition to the known expansion of a population of abnormal Lyt-2-T cells, mice of the lpr/lpr genotype have an alteration of their Lyt-2+ cell population, characterized by an imbalance of 9F3-defined subsets and decreased mitogenic reactivities.     

Studies on regenerating liver and hepatoma plasma membranes--I. Lipid and protein composition

1. Plasma membranes were isolated from normal liver, Morris hepatoma 7288C and regenerating liver, 6, 15, 24, and 48 hr after partial hepatectomy. 2. The cholesterol/phospholipid ratio was lower in regenerating liver 6 hr after partial hepatectomy (0.51) compared to the sham control (0.68), returning to normal after 15 hr. This was accompanied by a small increase in palmitic acid (16:0). There were no other changes in the lipid composition in regenerating hepatocytes in the first 48 hr after partial hepatectomy. 3. Analysis of lipid composition showed a higher cholesterol/phospholipid ratio in the hepatoma plasma membrane compared to normal liver accompanied by an increase in saturation of the fatty acyl groups of the phospholipids. There were also significant changes in the phospholipid classes. 4. There was no change in the two-dimensional electrophoretic profile of membrane proteins in the early stages of liver regeneration, however hepatoma membranes showed significant differences in protein profile. 5. These changes in the lipid composition of the hepatoma plasma membrane would have the effect of decreasing the average fluidity of the membrane and together with the changes in protein composition may be significant in the altered growth of the hepatoma. Changes in the lipid composition of the hepatocyte plasma membrane early in liver regeneration may reflect the onset of renewed cell division.     

Role of interstitial cell migration in generating position-dependent patterns of nerve cell differentiation in Hydra

The role of interstitial cell migration in the formation of newly differentiated nerve cells was examined during head regeneration in Hydra magnipapillata. When distal tissue was removed from the body of a wild-type strain (105), nerve cell differentiation occurred at a rapid rate during the first 48 hr of regeneration, slowing after this point. Rapid nerve cell differentiation was due primarily to migration of interstitial cells, some of which appeared to be nerve cell precursors, into the regenerating head. The migration decreased considerably after the first 48 hr of regeneration. In reg-16, a mutant strain deficient in head regeneration, no migration of interstitial cells and hence no new nerve cell differentiation were observed in the regenerating tip. However, the interstitial cells of reg-16 were observed to migrate into regenerating tissue of strain 105. These observations suggest that the migration of nerve cell precursors plays an important role when the new nerve net is being established during head regeneration.     

Post-Irradiation Thymocyte Regeneration After Bone Marrow Transplantation I. Regeneration and Quantification of Thymocyte Progenitor Cells In the Bone Marrow

Growth kinetics of the donor-type thymus cell population after transplantation of bone marrow into irradiated syngeneic recipient mice is biphasic. During the first rapid phase of regeneration, lasting until day 19 after transplantation, the rate of development of the donor cells is independent of the number of bone marrow cells inoculated. the second slow phase is observed only when low numbers of bone marrow cells (2.5 × 10⁴) are transplanted. the decrease in the rate of development is attributed to an efflux of donor cells from the thymus because, at the same time, the first immunologically competent cells are found in spleen. After bone marrow transplantation the regeneration of thymocyte progenitor cells in the marrow is delayed when compared to regeneration of CFUs. Therefore, regenerating marrow has a greatly reduced capacity to restore the thymus cell population. One week after transplantation of 3 × 10⁶ cells, 1% of normal capacity of bone marrow is found. It is concluded that the regenerating thymus cells population after bone marrow transplantation is composed of the direct progeny of precursor cells in the inoculum.     

Distinction of virgin and memory T lymphocytes. Stable acquisition of the Pgp-1 glycoprotein concomitant with antigenic stimulation

The Pgp-1 glycoprotein was identified on a minor (27%) subset of peripheral Lyt-2+ or L3T4+ T cells. In contrast, mature medullary-type thymocytes (Lyt-2+ L3T4-, Lyt-2- L3T4+) were nearly devoid of cells expressing detectable surface Pgp-1. The appearance of peripheral Pgp-1- T cells was found to be thymus dependent, as demonstrated by the diminished proportion of Pgp-1- T cells after thymectomy and their virtual absence in athymic nude mice. The subsequent acquisition of surface Pgp-1 was found to be a stable differentiation event occurring concomitantly with primary antigenic stimulation; selected Pgp-1- mature T cells from thymus or periphery acquired constitutive expression of Pgp-1 after stimulation in vitro with alloantigen or mitogens. These observations were extended by studies in vivo showing that immunization with various antigens augmented the percentage of Pgp-1+ spleen cells within the Lyt-2+ subset. Furthermore, the frequencies of antigen-specific CTLp, after immunization by any of three different antigens tested, were greatly enriched in the Pgp-1+ compared with the Pgp-1- subpopulations. Peritoneal exudate Lyt-2+ cells, after a localized allograft rejection, demonstrated a particularly prominent Pgp-1+ subpopulation (78%) that contained virtually all the allospecific cytolytic activity. A model consistent with all of these data proposes that mature thymocytes lacking surface Pgp-1 upon emigration to the periphery acquire its expression at the time of primary antigenic stimulation. Hence, expression of Pgp-1 among peripheral T cells is an important differentiation marker for identifying antigen-stimulated memory T cells.     

In vitro differentiation of B lymphocytes from pre-B cells.

Adult bone marrow contains both B lymphocytes and their immediate precursors, pre-B cells. These two cells differ in size and can be separated by velocity sedimentation; B cells are enriched in the subpopulation of cells sedimenting at between 2.0 and 3.5 mm/hr and pre-B cells in the subpopulation between 5.0 and 7.0 mm/hr. Incubation of pre-B cells in vitro for 4 or 5 days leads to their differentiation into functional B lymphocytes. The transition form pre-B to B appears to occur in two steps. The first step gives mitogen responsive B cells with an intermediate sedimentation velocity and the second step produces typical small, slowly sedimenting B cells. Pre-B cells can be quantified by using a limiting dilution assay and occur at a frequency of 1/60 in the subpopulation of rapidly sedimenting bone marrow cells.     

Structural properties of regenerating muscle and the state of thymus after laser therapy of injured muscle in different periods of regeneration

The effect of He-Ne laser (632.8 nm, 2.5–3.0 mW/cm²) on skeletal muscle regeneration proved to depend on the period of regenerating tissue exposure to the radiation. Ten 3-min exposures within 1–15 days after muscle injury at a dose of 4.5–5.4 J/cm² per each operated limb accelerated the inflammation and regeneration of the muscle. The regenerates demonstrated a more muscular structure compared to laser therapy at later periods. The load on the thymus increased, its weight and cortical layer restoration decelerated, and aplasia was observed. The same dose of laser radiation in the period of days 16–30 increased the sclerotization of regenerating muscle tissue. The reactive changes in the thymus were less pronounced, the cortical layer recovery accelerated, and the mitotic index of thymocytes considerably increased. A three times lower laser radiation dose (1.5–1.8 J/cm²) in early regeneration inhibited inflammation and growth of the connective and muscle tissues compared to control. No increase in the functional activity of thymus was observed.     

Immunohistology of lymphoid and non-lymphoid cells in the thymus in relation to T lymphocyte differentiation

The present paper reports the distribution of lymphoid and non-lymphoid cell types in the thymus of mice. To this purpose, we employed scanning electron microscopy and immunohistology. For immunohistology we used the immunoperoxidase method and incubated frozen sections of the thymus with 1) monoclonal antibodies detecting cell-surface-differentiation antigens on lymphoid cells, such as Thy-1, T-200, Lyt-1, Lyt-2, and MEL-14; 2) monoclonal antibodies detecting the major histocompatibility (MHC) antigens, H-2K, I-A, I-E, and H-2D; and 3) monoclonal antibodies directed against cell-surface antigens associated with cells of the mononuclear phagocyte system, such as Mac-1, Mac-2, and Mac-3. The results of this study indicate that subsets of T lymphocytes are not randomly distributed throughout the thymic parenchyma; rather they are localized in discrete domains. Two major and four minor subpopulations of thymocytes can be detected in frozen sections of the thymus: 1) the majority of cortical thymocytes are strongly Thy-1+ (positive), strongly T-200+, variable in Lyt-1 expression, and strongly Lyt-2+; 2) the majority of medullary thymocytes are weakly Thy-1+, strongly T-200+, strongly Lyt-1+, and Lyt-2- (negative); 3) a minority of medullary cells are weakly Thy-1+, T-200+, strongly Lyt-1+, and strongly Lyt-2+; 4) a small subpopulation of subcapsular lymphoblasts is Thy-1+, T-200+, and negative for the expression of Lyt-1 and Lyt-2 antigens; 5) a small subpopulation of subcapsular lymphoblasts is only Thy-1+ but T-200- and Lyt-; and 6) a small subpopulation of subcapsular lymphoblasts is negative for all antisera tested. Surprisingly, a few individual cells in the thymic cortex, but not in the medulla, react with antibodies directed to MEL-14, a receptor involved in the homing of lymphocytes in peripheral lymphoid organs. MHC antigens (I-A, I-E, H-2K) are mainly expressed on stromal cells in the thymus, as well as on medullary thymocytes. H-2D is also expressed at a low density on cortical thymocytes. In general, anti-MHC antibodies reveal epithelial-reticular cells in the thymic cortex, in a fine dendritic staining pattern. In the medulla, the labeling pattern is more confluent and most probably associated with bone-marrow-derived interdigitating reticular cells and medullary thymocytes. We discuss the distribution of the various lymphoid and non-lymphoid subpopulations within the thymic parenchyma in relation to recently published data on the differentiation of T lymphocytes.