Mediolateral somitic origin of ribs and dermis determined by quail-chick chimeras.

Somites are transient mesodermal structures giving rise to all skeletal muscles of the body, the axial skeleton and the dermis of the back. Somites arise from successive segmentation of the presomitic mesoderm (PSM). They appear first as epithelial spheres that rapidly differentiate into a ventral mesenchyme, the sclerotome, and a dorsal epithelial dermomyotome.

Kinetics and repertoire selection of T cells derived from the early waves of fetal thymus colonization after thymus grafting in allogeneic nude recipients.

The survival of T cells derived from the early waves of thymus colonization by haemopoietic cell precursors was investigated by grafting thymus from B6.Thy1.1 day 14 embryos (E14) (first wave) or E17 or newborn thymus (subsequent waves) into allogeneic athymic BALB/c (Thy1.

Abnormal T cell selection on nod thymic epithelium is sufficient to induce autoimmune manifestations in C57BL/6 athymic nude mice.

To investigate the role of primary T cell repertoire selection in the immunopathogenesis of autoimmune diseases, pure thymic epithelium (TE) from nonobese diabetic (NOD) embryos was grafted into non autoimmune prone newborn C57BL/6 athymic mice. The results show that NOD TE selects host T cell repertoires that establish autoimmunity in otherwise nondiabetic animals. Thus, such chimeras regularly show CD4 and CD8 T cell-mediated insulitis and sialitis, in contrast with syngeneic or allogeneic chimeras produced with TE from nonautoimmune strains.

On the mechanisms of thymic epithelium induced tolerance.

We have devised a model in which nude mice are T cell reconstituted at birth by subcutaneous grafts of embryonic thymic epithelium (TE) removed from 10 days allogeneic embryos. The TE is colonized by the nude mouse hemopoietic cells which differentiate into T cells. Such T cell-reconstituted nude mice are able to reject third party skin graft and are tolerant to skin of their own haplotype but also the TE H-2 type.

Bone morphogenetic protein-2 (BMP-2) inhibits muscle development and promotes cartilage formation in chick limb bud cultures.

Bone morphogenetic proteins (BMPs) induce ectopic cartilage and bone when implanted intramuscularly in adult rats. Expression data suggest that BMPs signal skeletal development in embryos. An important question is which cells are targets of BMP signaling in adult and embryonic tissues.

Lateral and axial signals involved in avian somite patterning: a role for BMP4.

In vertebrates, muscles of the limbs and body wall derive from the lateral compartment of the embryonic somites, and axial muscles derive from the medial compartment. Whereas the mechanisms that direct patterning of somites along the dorsoventral axis are beginning to be understood, little is known about the tissue interactions and signaling molecules that direct somite patterning along the mediolateral axis. We report the identification of a specific marker for the lateral somitic compartment and its early derivatives, cSim1, an avian homolog of the Drosophila single minded gene.

Lymphocytes selected in allogeneic thymic epithelium mediate dominant tolerance toward tissue grafts of the thymic epithelium haplotype.

Athymic mice grafted at birth with allogeneic thymic epithelium (TE) from day 10 embryos before hematopoietic cell colonization reconstitute normal numbers of T cells and exhibit full life-long tolerance to skin grafts of the TE haplotype. Intravenous transfers of splenic cells, from these animals to adult syngeneic athymic recipients, reconstitute T-cell compartments and the ability to reject third-party skin grafts. The transfer of specific tolerance to skin grafts of the TE donor strain, however, is not observed in all reconstituted recipients, and the fraction of nontolerant recipients increases with decreasing numbers of cells transferred.

Control of somite patterning by signals from the lateral plate.

The body musculature of higher vertebrates is composed of the epaxial muscles, associated with the vertebral column, and of the hypaxial muscles of the limbs and ventro-lateral body wall. Both sets of muscles arise from different cell populations within the dermomyotomal component of the somite. Myogenesis first occurs in the medial somitic cells that will form the epaxial muscles and starts with a significant delay in cells derived from the lateral somitic moiety that migrate to yield the hypaxial muscles.

Control of dorsoventral patterning of somitic derivatives by notochord and floor plate.

We have examined the effect of implantation of a supernumerary notochord or floor plate on dorsoventral somitic organization. We show that notochord and floor plate are able to inhibit the differentiation of the dorsal somitic derivatives--i.e.

Identification in the chicken of GRL1 and GRL2: two granule proteins expressed on the surface of activated leukocytes.

We report the production of two monoclonal antibodies reacting, respectively, with a 92-kDa protein (GRL1) and a 40- to 65-kDa membrane glycoprotein (GRL2), both present in chicken thrombocyte and myelocyte granules. We examined the expression of GRL1 and GRL2 during the development of the hematopoietic system: GRL1 is restricted to thrombocytes and myelocytes, whereas GRL2 is present in thrombocytes, myelocytes, myeloid progenitors, and a subpopulation of erythroid progenitors. In the lymphoid lineages, neither GRL1 nor GRL2 is expressed during thymus and bursa ontogeny or on resting peripheral blood lymphocytes.

Transplantation tolerance is unrelated to superantigen-dependent deletion and anergy.

C57BL/6 (B6; I-E-, Mls-2b) nude mice, reconstituted at birth with thymic epithelium (TE) from BALB/c (BA; I-E+, Mls-2a) day 10 embryos (E10), permanently accepted BALB/c skin, when grafted as adults. T-cell receptor repertoire analyses in the periphery of these mice revealed no difference in frequencies of I-E/superantigen-reactive T-cell receptor V beta families, as compared to chimeras constructed with syngeneic B6 E10 TE. T lymphocytes bearing V beta 3, V beta 5, and V beta 11 T-cell receptors, from either allogeneic or syngeneic TE chimeras, responded equally well to in vitro receptor-dependent stimulation.

Thymic epithelium induces neither clonal deletion nor anergy to Mls 1a antigens.

Grafting of thymic anlagen from day-10 DBA/2 (H-2d; Mls-1a) embryos to newborn athymic BALB/c (H-2d; Mls-1b) mice leads to reconstitution of T cell populations in the recipients. Analysis of adult chimeras shows that their V beta T cell receptor (TcR) repertoires, particularly V beta 6 and V beta 8.1, do not significantly differ in most animals (10 out of 13) from those scored in control chimeras that received syngeneic thymic anlagen.

Successful xenogeneic transplantation in embryos: induction of tolerance by extrathymic chick tissue grafted into quail.

In previous experiments, we have demonstrated that limb buds engrafted during embryonic life at E4, between MHC-mismatched chick embryos, are not only tolerated after birth, but induce in the recipient a state of split tolerance toward cells expressing the donor MHC haplotype: donor's skin grafts are permanently tolerated while a proliferative response of host's T cells is generated in MLR by donor-type blood cells. If the same experiment is performed, using quail embryo as a donor and chick as a recipient, acute rejection of the quail limb starts during the first two weeks after birth, thus suggesting that the peripheral type of tolerance induced in these experiments can be obtained only in allogeneic but not in xenogeneic combinations. We report here the unexpected result that when a chick limb bud is grafted into a quail at E4, it is tolerated and, like allogeneic grafts in chickens, induces adult skin-graft tolerance without modifying the MLR response.

A widely distributed antigen developmentally regulated in the nervous system.

We have identified a glycoprotein (BEN) of 95-100 x 10(3) Mr using a monoclonal antibody. This protein is transiently expressed at the cell surface of the peripherally projecting neurons, i.e.

Thymic epithelium tolerizes for histocompatibility antigens.

The role of thymic epithelium in the establishment of tissue tolerance was analyzed with a murine chimeric system. All T cells differentiated from birth onward in a thymus comprising allogeneic epithelium and syngeneic hematopoietic cells. Embryonic thymic rudiments that contained no hematopoietic cells from C3H (H-2k) donors were grafted to newborn athymic (nude) BALB/c (H-2d) mice.

Evidence for peripheral mechanisms inducing tissue tolerance during ontogeny.

Tissue grafts from a histoincompatible donor of the same developmental stage were introduced into an early chick embryo host in order to probe the immune response to the graft after birth, when the host has reached immune maturity. Limb buds from B4 or B12 chicken strains were grafted in situ on (B15 x B21)F1 recipients that were allowed to hatch. The grafted wing grew normally and was tolerated in a nearly perfect way during the host's lifetime, although reversible rejection crises severely affected the fundamentally healthy state of the grafted tissues.

Analysis of the first two waves of thymus homing stem cells and their T cell progeny in chick-quail chimeras.

Chick-quail chimeras were used to study precursor/progeny relationships of hemopoietic stem cells (SC) that enter the embryonic thymus in waves to give rise sequentially to the TCR-1+, TCR-2+, and TCR-3+ lineages of T cells. The first wave of SC and their progeny were examined by grafting thymus from 9-d chick embryos (E9) into E3 quails. mAbs specific for chick T cell antigens were used to trace the development of T cells in the recipients.

Cytoplasmic CD3+ surface CD8+ lymphocytes develop as a thymus-independent lineage in chick-quail chimeras.

We have analyzed the embryonic development of a population of lymphoid cells that express a CD3 antigenic determinant in the cytoplasm but not on the cell surface. Since these cells lack T cell receptor (TcR) molecules, we have provisionally named them TCRO cells. Their development, expansion and distribution was investigated following transplantation of splenic and bursal fragments from chicken embryos into quail embryos.

Restoration of T-cell function in nude mice by grafting the epitheliomesenchymal thymic rudiment from 10-day-old euthymic embryos.

The capacity of the uncolonized thymic epithelium to restore immune function in nude mice was demonstrated by grafting the 3rd branchial arch area taken from euthymic 10-day BALB/c embryos into syngeneic newborn nude mice. Twenty-six percent of the operated animals became immunocompetent. T-cell function was tested with skin grafts and the presence of high levels of Thy-1 positive cells plus a variety of in vitro culture assays: Con A stimulation of T lymphocytes, cytotoxicity and alloreactivity in MLR of the recipient toward allogeneic spleen cells.

Avian spinal cord chimeras. Further studies on the neurological syndrome affecting the chimeras after birth.

These experiments bring new information concerning the immunological status after birth of quail----chick spinal cord chimeras. Such birds have been produced using recipient flocks of chickens different from those in our previous experiments. The breakdown of tolerance after hatching has been recorded and found to vary with the origin of the embryos.

Implants of quail thymic epithelium generate permanent tolerance in embryonically constructed quail/chick chimeras.

In situ implantation of a quail wing bud into a chick embryo at 4 days of incubation (E4) regularly results in the normal development of the implant followed by its acute rejection starting within two weeks post-hatching. If the epithelial thymic rudiments of the quail donor are implanted into the branchial arch area of the chick recipient after partial removal of its own thymic primordia, a chimeric thymus develops in the chick host and this induces tolerance to the quail wing by the chick recipient. The species identity of cells in chimeric thymuses was mapped using Feulgen-Rossenbeck' staining and immunolabelling with monoclonal antibodies directed against quail or chick B-L antigens.

Ontogenic emergence of a quail leukocyte/endothelium cell surface antigen.

The ontogenic emergence of MB1, a quail cell surface antigen expressed by endothelial and hemopoietic cells but not erythrocytes, was followed by direct immunofluorescent staining of transverse sections of the developing blastodisc, from the stage of the cephalic fold until 22 pairs of somites. Along the developmental sequence that leads from hemangioblasts, the mesodermal precursors of both endothelium and hemopoietic cells, to vessels containing blood cells, MB1 is first expressed by arising endothelial cells. These first emerge as flattened cells at the periphery of hemangioblastic clusters in the area opaca from the stage of one pair of somites and slightly later as unicellular angioblasts in the area pellucida and in the embryo.

Evidence for a cyclic renewal of lymphocyte precursor cells in the embryonic chick thymus.

Experiments involving sequential transplantations of the chick embryonic thymus at E9 to E12 into a first 3-day host quail embryo and then into a second chick host allowed demonstration of the cyclic periodicity of hemopoietic cell seeding of the embryonic thymus. After a first wave of colonization occurring between E6.5 and E8, the thymus becomes refractory to hemopoietic cell entry for about 4 days.