Use of A Mouse Chimaeric Model to Study Cell Migration Patterns In the Small Intestinal Epithelium

The pattern of cells migration in the small intestinal epithelia of a RIII/?ro C57BL/6J mouse aggregation chimaera is demonstrated using Dolichos biflorus agglutinin-peroxidase (DBA) conjugate as a strain-specific marker. Using serial tangential sections of heterogeneously stained villi and plotting the distribution of labelled/unlabelled cells with a drawing tube, and by three-dimensional reconstruction with the aid of computer graphics, we show the migration pathway to be in tight cohorts of similar DBA-peroxidase staining type, which move upwards in straight lines. There is little cell mixing either on the villus or along the crypt-villus junctions. Our observations also show for the first time that a single crypt can feed cells to more than one villus. They also suggest that either cell loss is not confined to the villus tips but can take place from the villus sides, or that there is marked asynchrony of cell production between crypts.     

Circadian Variation In Migration Velocity In Small Intestinal Epithelium

Abstract. The variation in migration rates of cells within the small intestinal epithelium was studied over a 24-hr period at 3-hr intervals (migration of cells was studied independently for the crypts and the villi using the changing distributions of [³H]TdR labelled cells as an indicator of cell migration).
Clear changes in the rates of cell movement were observed during a 24-hr period for both crypt and villus epithelium. the rates of cell migration in these two compartments did not correlate well with the exception of samples taken at 18.00 hours. At this time of day there appeared to be no cell movement at all in either crypts or villi. There was not a good correlation between the migration velocity throughout the day and the changes in the number of mitoses.
It is proposed that mitotic rates do not directly govern migration rates but that the converse may be true. Further, the lack of correlation between crypt and villus migration rates at any time of day suggest that the mechanisms controlling all movement in these two regions of small intestinal epithelium may be different.     

Effects of Puromycin, Cycloheximide and Noradrenaline On Cell Migration Within the Crypts and On the Villi of the Small Intestine

Abstract. The normal process of cell migration, occurring as part of the replacement scheme within the small intestinal epithelium, was investigated extensively. the effects of puromycin, cycloheximide and noradrenaline on the movement of tritiated thymidine ([³H]TdR) prelabelled crypt or villus cells have been studied. These studies have led to the formulation of a model for the mechanism of cell migration, postulating that the crypts and villi behave as separate units, with regard to cell migration, in addition to their distinct structural and functional properties. It is proposed that crypt cell migration is an active process requiring protein synthesis and protein glycosylation, whilst movement of villus epithelial cells is passive, depending on the continued contraction of smooth muscle cells in the lamina propria.     

Circadian variation in migration velocity in small intestinal epithelium

The variation in migration rates of cells within the small intestinal epithelium was studied over a 24-hr period at 3-hr intervals (migration of cells was studied independently for the crypts and the villi using the changing distributions of [3H]TdR labelled cells as an indicator of cell migration). Clear changes in the rates of cell movement were observed during a 24-hr period for both crypt and villus epithelium. The rates of cell migration in these two compartments did not correlate well with the exception of samples taken at 18.00 hours. At this time of day there appeared to be no cell movement at all in either crypts or villi. There was not a good correlation between the migration velocity throughout the day and the changes in the number of mitoses. It is proposed that mitotic rates do not directly govern migration rates but that the converse may be true. Further, the lack of correlation between crypt and villus migration rates at any time of day suggest that the mechanisms controlling all movement in these two regions of small intestinal epithelium may be different.     

Intestinal villus structure contributes to even shedding of epithelial cells

In the intestinal epithelium, proliferated epithelial cells ascend the crypts and villi and shed at the villus tips into the gut lumen. In this study, we theoretically investigate the roles of the villi on cell turnover. We present a stochastic model that focuses on the duration over which cells migrate the shortest paths between the crypt orifices and the villus tips, where shedding cells are randomly chosen from among those older than the shortest-path cell migration times. By extending the length of the shortest path to delay cell shedding, the finger-like shape of the villus would tightly regulate shedding-cell ages compared with flat surfaces and shorter projections; the villus allows epithelial cells to shed at around the same age, which limits them from shedding early or staying in the epithelium for long periods. Computational simulations of cell dynamics agreed well with the predictions. We also examine various mechanical conditions of cells and confirm that coordinated collective cell migration supports the predictions. These results suggest the important roles of the villi in homeostatic maintenance of the small intestine, and we discuss the applicability of our approach to other tissues with collective cell movement.     

The influence of various cell kinetic conditions on functional differentiation in the small intestine of the rat. A study of enzymes bound to subcellular organelles

The process of cell maturation and cell ageing of absorptive epithelial cells was investigated in normal rat duodenum. The development of a number of enzymes bound to subcellular organelles was studied by using microchemical analyses on various cell compartments dissected from crypts and villi from freeze-dried cryostat sections. The development of the ultrastructural features of the absorptive epithelium was investigated by electron microscopy of various cell positions along the whole length of the crypt and the base of the villus. The data obtained were related to cell position along the crypt and villus and to cell age during migration from the bottom of the crypt to the tip of the villus.The influence of changes in the life-span of the cells and of increasing proliferative activity was studied by comparing normal rat duodenum with that from germfree rats and rats recovering from low radiation doses (72 hr after 400 R).Our data show that the specific activity of nonspecific esterases mainly localized in the endoplasmic reticulum increases when the cells migrate along the upper half of the crypt and the basal part of the villus. Activity of alkaline phosphatase, measured as a marker for the microvilli, is absent in the crypt, but increases linearly from the base of the villus to the tip. The longer life-span of villus cells in germfree animals does not result in a higher activity of these enzymes than in normal animals. An increased proliferative activity in the crypt, as present 72 hr after X-irradiation, is accompanied by a decreased activity of both enzymes but the pattern of activity during cell migration remains the same. The specific activity of enzymes bound to mitochondria or lysosomes (monoamineoxidase and β-N-acetylglucosaminidase) are not affected by changing crypt cell kinetics.Electrophoretic analyses of isolated cell compartments showed that the increase during normal differentiation or the decrease after X-irradiation of esterase activity is due to changes in overall activity, not to the appearance or disappearance of specific isoenzymes. Electron microscopy showed that in the normal intestine there is a gradual development of ultrastructural features during migration of the cell along the crypt while the most drastic changes in cell structure occur at the moment the cell enters the villus. Contrary to our expectation, the ultrastructural development was not influenced by increased proliferative activity in the crypt 72 hr after irradiation, and hence the decrease in enzyme activity found cannot be related to changes in ultrastructure.     

Mosaic analysis of small intestinal development using the<Emphasis Type="Italic"> spf</Emphasis><Superscript><Emphasis Type="Italic">ash</Emphasis></Superscript>-heterozygous female mouse

Mosaic analysis using the spf(ash)-heterozygous female mouse was performed to clarify the cell lineage and cell behavior during small intestinal development with special attention given to the villus and crypt formation. The spf(ash) mutation, located on the X-chromosome, causes ornithine transcarbamylase (OTC) deficiency, which leads to mosaic expression of this enzyme in the small intestine of the heterozygous female mouse. In the small intestine in heterozygous fetuses, very small patches, which were aggregates of OTC-positive cells or negative cells, with no definite orientation to the villus structures were observed. In the neonatal small intestine, the intervillus region (the presumptive crypts) was polyclonal, and the majority of crypts were comprised exclusively cells of either genotype in 2-week-old small intestine. These results suggest that extensive migration and cell mixing of small intestinal epithelial cells, which have no definite correlation with the villus formation, occur in fetal stages of development, and that the crypt morphogenesis commences after birth independently of the monoclonality of the epithelial cells. Our data with the mosaic mice also reconfirmed the monoclonality of the adult small intestinal crypts demonstrated in mouse aggregation chimeras.     

Effects of puromycin, cycloheximide and noradrenaline on cell migration within the crypts and on the villi of the small intestine. A model to explain cell movement in both regions

The normal process of cell migration, occurring as part of the replacement scheme within the small intestinal epithelium, was investigated extensively. The effects of puromycin, cycloheximide and noradrenaline on the movement of tritiated thymidine [( 3H]TdR) prelabelled crypt or villus cells have been studied. These studies have led to the formulation of a model for the mechanism of cell migration, postulating that the crypts and villi behave as separate units, with regard to cell migration, in addition to their distinct structural and functional properties. It is proposed that crypt cell migration is an active process requiring protein synthesis and protein glycosylation, whilst movement of villus epithelial cells is passive, depending on the continued contraction of smooth muscle cells in the lamina propria.     

Heterogeneity of mouse Thy 1.2 antigen expression revealed by monoclonal antibodies

A different sensitivity of T cells from C57B1/6 and DBA/2 mice to treatment with the monoclonal anti-Thy 1.2 F7D5 serum as compared with a conventional alloantiserum is reported. Depletion of T helper cells, Con A-, PHA-, MLC-, and GVH-reactive cells from a DBA/2 or C57B1/6 spleen cell population was readily achieved with the conventional alloserum. In contrast, the F7D5 antiserum abolished all T functions studied in C57B1/6 spleen cells whereas it was totally or partially ineffective on DBA/2 spleen cells when T helper, MLC, or GVH reactivity were assayed. It did however eliminate the capacity of DBA/2 spleen cells to respond to stimulation with Con A or PHA. Analysis in an Ortho-Cytofluorograf of thymocytes and sIg^? lymphocytes labeled with either GAMB-F or F7D5 + RAM Ig-F showed no difference at the level of the thymocytes: Thy 1.2 antigen as revealed by either GAMB or F7D5 is similarly expressed in the two mouse strains. The fluorescence profiles of splenic T lymphocytes indicated a reduced representation per unit cell basis of the Thy 1.2 antigenic determinant recognized by F7D5 in DBA/2 mice. Moreover, this same determinant is expressed in only 70% of all Thy 1.2-positive cells detected in DBA/2 sIg^? population. This implies that, in DBA/2 mice, maturation of T cells is accompanied by a complete or partial loss of the F7D5 Thy 1.2 determinant and that T helper functions and MLC and GVH reactivity are mediated by T cells which express little or none of this F7D5 Thy 1.2 determinant.     

Characterization of isolated villus and crypt cells from the small intestine of the adult mouse

Summary Suspensions of sequentially isolated villus and crypt cells were obtained in order to study certain biochemical changes associated with differentiation of epithelial cells in the small intestine of the mouse. Microscopic observation of the various cell fractions reveals that the epithelial cells detach as individual cells or small sheets of epithelium from the tip to the base of the villus, whereas cells in the crypt regions are separated as entire crypt units. The isolated cells retain their ultrastructural integrity as judged by electron microscopy. Chemical characterization of the various fractions shows that the total cellular protein content, expressed in activity per cell, remains relatively constant throughout the villus region followed by a noticeable drop in the crypt zone. On the other hand, sharp variations in values of cell DNA content are observed in the crypt zone depending on the reference of activity being used. Activity profiles of several brush border enzymes confirm the biochemical changes that occur during the migration of cells from the crypt to the villus tip, as observed in other species, with maximum activity of sucrase in the mid-villus region, of glucoamylase, trehalase, lactase and maltase in the upper third region, and of alkaline phosphatase at the villus tip. Forty-eight-hour suspension cultures of cell fractions corresponding to cells at the base of the villus and crypt zones show a moderate decrease in protein and enzyme activities to approximately 70% of their original value, with DNA content remaining stable throughout the incubation period. The use of biochemical activities as indicators of cellular integrity during cell culture is discussed.Supported by a research grant from the Medical Research Council of Canada (J.H.)     

EFFECT OF VILLUS LENGTH ON CELL PROLIFERATION AND MIGRATION IN SMALL INTESTINAL EPITHELIUM

For the interpretation of data supporting the hypothesis of a feedback regulation of proliferative activity in intestinal crypts by the functional villus cell compartment the life span and migration rate of epithelial cells on villi of experimentally reduced length should be known. Autoradiographic studies and scintillation counting of isolated villi at different time intervals after ³H-thymidine labelling were carried out 36, 48 and 60 hr intervals after X-irradiation. The results showed that the life span of epithelial cells in rat small intestine (36–48 hr) is independent of the villus length. In villi of reduced length the migration rate of the epithelial cells was found to be decreased compared with controls. Changes in the migration rate in turn seem to be dependent on the production of epithelial cells in the crypt. Comparative studies on the recovery of crypt and villus epithelium after various doses (300 and 700 R) of X-radiation support the hypothesis that increased proliferative activity in the crypt cell compartment is related to a reduction of the number of functional villus cells below a critical villus length. The importance of these findings in the interpretation of data on (micro) biochemical analyses of certain cell differentiation characteristics during increased proliferative activity is discussed.     

Anti-tumor effects of an antiserum raised in syngeneic mice to a tumor-specific T suppressor factor

Summary DBA/2 mice inoculated with either cells from the syngeneic P815 tumor or tumor cell membrane extracts develop T suppressor cells which suppress the in vitro generation of cytotoxic T lymphocytes with specificity for the tumor. A soluble suppressor factor with similar properties can be isolated from suppressor cell-enriched populations. It can be highly purified by appropriate immunoadsorption. Antisera to this suppressor factor raised in either DBA/2 or C57BL/6 mice can specifically absorb out suppressor factor and eliminate suppressor cells in the presence of complement. The in vivo effects of these antisera were tested for their ability to modulate the growth of P815 tumors in DBA/2 mice. It was found that the antiserum raised in syngeneic (DBA/2) but not allogeneic (C57BL/6) mice was able to significantly slow the rate of tumor growth and to prolong survival in treated mice. The antiserum was effective in this way only if it was administered early in the course of tumor growth. It was shown that this effect was not attributable to the presence in the serum of antibodies directed to antigens present on P815 cells, and it therefore appears to be due to interference with the function of T suppressor cells arising early in the immune response to the tumor cells.     

MHC-linked Ir gene control of T cell responses: GAT-specific proliferating T cells and helper T cells are elicited in nonresponder mice immunized with soluble GAT

The immune response to the synthetic terpolymer GAT is controlled by MHC-linked Ir gene(s). We show in this paper that antigen-presenting cells and T cells from mice belonging to two nonresponder strains (SJL and DBA/1) can present and recognize GAT, respectively. This has been measured with a T cell proliferation assay of GAT-primed lymph node cells. In order to detect T cell proliferation among GAT-primed lymph node cells from DBA/1 mice, it is necessary to treat the cells with monoclonal anti-Lyt-2 antibodies and complement (C) before the assay. These conclusions were further verified with SJL mice, when a T cell line derived from LN cells was used. We have shown that after immunization with GAT, specific T helper cells can be generated in the lymph nodes of SJL mice but not in the lymph nodes of DBA/1 mice. Furthermore, GAT-specific T helper cells can be detected in the spleen of SJL mice after immunizations with GAT, provided these spleen cells are pretreated with monoclonal anti-Lyt-2 antibodies + C or mild irradiation. Together, these results support the general idea that nonresponsiveness can be explained by a regulatory imbalance rather than by discrete cellular "defects."     

Spontaneous fusion in vivo between normal host and tumor cells: possible contribution to tumor progression and metastasis studied with a lectin-resistant mutant tumor.

Previous studies demonstrated that growth in DBA/2 mice of MDW4, a wheat germ agglutinin-resistant (WGAr) mutant of the highly metastatic MDAY-D2 DBA/2 mouse tumor, led to the emergence of WGA-sensitive (WGAs) revertants having higher ploidy levels at the site of inoculation as well as at distant visceral metastases. The results implied that MDW4 was nonmetastatic but progressed to become metastatic in vivo only after a cellular change took place which was accompanied by extinction of the WGAr phenotype and acquisition of a higher number of chromosomes. Results presented here provide strong and direct evidence for the underlying mechanism being spontaneous cell fusion in vivo between the MDW4 (WGAr) tumor cells and normal host cells, at least some of which are of bone marrow origin. Thus, growth of the H-2d MDW4 tumor cells in (C3H X DBA/2)F1 (H-2k X H-2d) or (C57BL/6 X DBA/2)F1 (H-2b X H-2d) mice led to the appearance of WGAs revertants bearing the H-2k or H-2b major histocompatibility complex antigens associated with the C3H or C57BL/6 parental strains, respectively. Similarly, WGAs revertants of MDW4 were found to express H-2k antigens after growth in CBA/HT6T6 (H-2k) leads to DBA/2 bone marrow radiation chimeras. Attempts to mimic the in vivo hybridization process were successful in that in vitro somatic cell fusion between an ouabain-resistant (OuaR), 6-thioguanine-resistant (Thgr) derivative of the MDW4 mutant and either normal bone marrow or spleen cells resulted in loss of the WGAr phenotype in the hybrids (thus showing its recessive character) and increased malignant properties in vivo. An analysis of spontaneous frequencies of re-expression of various drug resistance genetic markers in several hybrid metastatic cells was also consistent with chromosome segregation of the sensitive alleles. The results show that tumor progression and the emergence of metastatic cell variants could arise as a consequence of tumor X host cell fusion followed by chromosome segregation. We also discuss the possibility that this type of event may normally be a very rare one during the growth of tumors, the frequency of which can be artificially amplified by the use of certain classes of lectin-resistant mutants carrying particular cell surface alterations.     

Identification of a new type of invariant V alpha 14+ T cells and responsiveness to a superantigen, Yersinia pseudotuberculosis-derived mitogen.

We examined the expression of the H4 T cell activation marker in thymic T cell subpopulations and found that TCR-alpha beta+ CD4+ thymic T cells are segregated into three subpopulations based upon H4 levels. Thymic T cells with either no or low H4 expression differentiate via the mainstream differentiation pathway in the thymus. H4int thymic T cells, which express a skewed V beta repertoire of V beta 2, -7, and -8 in their TCRs, show the phenotype of NKT cells: CD44high, Ly6Chigh, NK1.1+, and TCR-alpha beta low. H4high thymic T cells also show a skewed V beta repertoire, V beta 2, -7, and -8, and predominantly express an invariant V alpha 14-J alpha 281+ alpha-chain in their TCRs but constitute a distinct population in that they are CD44int, Ly6C-, NK1.1-, and TCR-alpha beta high. Thus, invariant V alpha 14+ thymic T cells consist of ordinary NKT cells and a new type of T cell population. V beta 7+ and V beta 8.1+ invariant V alpha 14+ thymic T cells are present in DBA/2 mice, which carry mammary tumor virus-7-encoded superantigens, in comparable levels to those in BALB/c mice. Furthermore, V beta 7+ invariant V alpha 14+ thymic T cells in DBA/2 mice are in the immunologically responsive state, and Yersinia pseudotuberculosis-derived mitogen-induced V beta 7+ invariant V alpha 14+ thymic T cell blasts from DBA/2 and BALB/c mice exhibited equally enhanced responses upon restimulation with Y. pseudotuberculosis-derived mitogen. Thus, invariant V alpha 14+ thymic T cells that escape negative selection in DBA/2 mice contain T cells as functionally mature as those in BALB/c mice.     

Prostaglandin E2-mediated migration of human trophoblast requires RAC1 and CDC42

The invasion of maternal decidua and uterine spiral arteries by a trophoblast subpopulation called extravillous trophoblast (EVT) is essential for the establishment of a normal placenta and an adequate blood flow toward the fetus. Derangements in these processes underlie pregnancy-related diseases like preeclampsia and intrauterine growth restriction. Many growth factors, growth factor binding proteins, and extracellular matrix components can positively or negatively regulate the proliferation, migration, and/or invasiveness of these EVT cells. RHO GTPases, including RHOA, RAC1, and CDC42, are ubiquitous proteins that control cytoskeletal changes by forming stress fibers and projecting lamellipodia and filopodia during cellular migration. We had previously shown that prostaglandin (PG) E(2) produced in abundance by the decidua promotes the migration of first-trimester human EVTs by increasing the intracellular concentration of calcium and activating calpain. Using our well-characterized immortalized EVT cell line, HTR-8/SVneo, as well as villus explants from first-trimester placentae, this study examined the role of RHO GTPases RAC1 and CDC42 in PGE(2)-mediated migratory responses of these cells. Though a RAC1 inhibitor, NSC23766 as well as RAC1 knockdown by siRNA decreased the migration of HTR-8/SVneo cells in a Transwell migration assay, this inhibition could not be restored by PGE(2) or 17-phenyl trinor PGE(2) (PGE receptor PTGER1 agonist) or PGE(1) Alcohol (PGE receptor PTGER4 agonist). Similar results were noted for EVT cell spreading in villus explants. Furthermore, CDC42 silencing using siRNA inhibited PGE(2)-induced migration of HTR-8/SVneo cells. Finally, the treatment of EVT cells with PGE(2), PTGER1 agonist, or PTGER4 agonist activated RAC1 and CDC42 at 10 min, suggesting that RAC1 and CDC42 play an essential role in PGE(2)-mediated migration of human EVTs.     

Cell-mediated cytotoxicity against syngeneic tumors

Spleen cells from DBA/2 mice bearing the DBA/2 P815X mastocytoma for approximately 2 weeks can be stimulated in vitro by mastocytoma cells to generate cytotoxicity measured as ⁵¹Cr release from mastocytoma cells in a 4-hr assay. These cytotoxic cells will not kill allogeneic cell lines but will kill a series of first transplant generation syngeneic tumors. T cells are involved in that treatment of the responding or the cytotoxic cell populations with either anti-T or anti-theta antibody + complement will abrogate all cytotoxicity. Anti-Ly 2.1 antibody + complement treatment of either responder cells (prior to the in vitro culture with irradiated tumor cells) or effector cells after culture markedly decreases cytotoxicity whereas treatment with anti-Ly 1.1 was more effective prior to culture compared to its effect on cytotoxic cells per se. These T cells are in the small lymphocyte class and occur either singly or in aggregates. Suppression of antisyngeneic tumor cytotoxicity by antibody inhibits preferentially the expression of cytotoxicity in the aggregate fractions.     

Role of cytotoxic T lymphocytes in the prevention of lupus-like disease occurring in a murine model of graft-vs-host disease

The inoculation of B6D2F1 mice with T lymphocytes from the C57BL/6 parental strain induces an "immunosuppressive" graft-vs-host reaction (B6 GVH), whereas inoculation of T cells from the other, DBA/2 parental strain induces an "immunostimulatory" GVH reaction and a lupus-like disease (DBA GVH). The present study compares cytotoxic T lymphocyte (CTL) function in the spleens of these GVH mice as well as differences in the donor inoculum that could account for these different types of GVH. We observed that the B6 GVH induces an immunodeficiency that encompasses CTL precursors (and possibly T helper cells) and results in suppressor cells that abrogate responses to both trinitrophenyl (TNP)-modified self and third party alloantigens. In contrast, the DBA GVH induces only a T helper cell immunodeficiency and results in suppressor cells selective for class II restricted L3T4+ T helper cells. Chimeric T cells were detected in both types of GVH. In the B6 GVH both L3T4+ and Lyt-2+ donor cells were observed, although Lyt-2+ cells predominated. In the DBA GVH, donor T cells were almost exclusively of the L3T4+ phenotype. The lack of appreciable donor Lyt-2+ cells in the DBA GVH can be explained by a defect in the DBA donor inoculum manifested by a naturally occurring two-fold reduction in Lyt-2+ cell numbers as well as a nine-fold reduction in CTL precursors with anti-F1 specificity. T cells in the DBA inoculum, therefore, are predominantly L3T4+. A similar defect induced in B6 donor cells by anti-Lyt2 antibody and complement not only converted the suppressive GVH to a stimulatory GVH, as measured by anti-DNA antibodies, but also resulted in a T cell immune deficiency characteristic of the DBA GVH, i.e., a selective loss of the TNP-self CTL response. Thus the presence or absence of adequate numbers of functioning Lyt-2+ cells in the donor inoculum is correlated with the development of either a suppressive or stimulatory GVH, respectively. That donor Lyt-2+ cells mediate a suppressive GVH through cytolytic mechanisms is evidenced by greater than 70% reduction in B6 GVH spleen cell numbers and readily demonstrable anti-F1 CTL activity by these spleen cells despite an inability to generate anti-allogeneic or anti-TNP self CTL activity even in the presence of added T helper factors.(ABSTRACT TRUNCATED AT 400 WORDS)     

Autoimmune CD4+ T cells interfere with immune tolerance to a thymic-independent antigen

The ability of autoimmune T cell subsets to interfere with tolerization of B cells can be studied by using thymic-independent Ag. We have defined an abnormality within the CD4+ T cell compartment in young NZB and MRL-lpr/lpr mice by studying tolerance of spleen and B cells to the thymic independent Ag, fluorescein-Brucella abortus. Tolerization of spleen cells is defective in MRL-lpr/lpr mice, but not MRL-+/+ or C3H.lpr mice, suggesting that the defect requires both the autosomal MRL background and the lpr gene to be present. T enriched cells from NZB mice and from MRL-lpr/lpr mice (but not MRL-+/+ or C3H.lpr mice) reverse tolerance in spleen cells from [NZB X DBA/2]F1 and C3H/HeJ mice, respectively. This interference is removed by treatment with anti-CD4 antibody and C. Supernatants from cultured T cells of NZB and MRL-lpr/lpr mice also prevent tolerance in spleen cells of [NZB X DBA/2]F1 and MRL-+/+ mice, respectively, unless CD4+ cells are removed prior to T cell culture. Removal of T cells from NZB and MRL-lpr/lpr spleen cells allows normal tolerization of B cells, which is abrogated by the addition of syngeneic T cells or cultured T cell supernatants. This effect also depends on the presence of CD4+ T cells. These studies show that in MRL-lpr/lpr mice, through interaction of the lpr and MRL background genes in a T cell subset, and in NZB mice, CD4+ T cells interfere with B cell tolerance to a thymic-independent Ag.     

(Na---K)-stimulated adenosinetriphosphatase in isolated intestinal villus tip and crypt cells

The migration of intestinal epithelial cells from the crypt area to the villus tip is associated with progressive differentiation of these cells. The distribution of (Na⁺---K⁺) stimulated adenosinetriphosphatase ((Na⁺---K⁺)-ATPase; EC 3.6.1.3) along the intestinal villus may have functional as well as developmental implications. To define this distribution, rat jejunal and ileal segments were incubated in vitro with a citrate solution that dissociates epithelial cells sequentially from villus tip to crypt area. ATPase activity in cell collections from villus tips and crypt areas were compared. The specific activity of (Na⁺---K⁺)-ATPase was higher in the villus tip than in the crypt cells of both jejunum and ileum. Crypt cell (Na⁺---K⁺)-ATPase activity in the jejunum and ileum were similar. Thus, (Na⁺---K⁺)-ATPase activity of villus tip cells in the jejunum was greater than in the ileum. There was no difference in villus tip and crypt cell Mg²⁺-ATPase activity in either jejunum or ileum. The steep gradient for (Na⁺---K⁺)-ATPase along the intestinal villus may signify an improtant difference in Na⁺ transport between the villus tip and crypt area. The higher level of (Na⁺---K⁺)-ATPase activity in the jejunal villi is consistent with the more important role of the jejunum in Na⁺ and substrate-linked Na⁺ transport.