Transplantation of embryonic spleen tissue reveals a role for adult non-lymphoid cells in initiating lymphoid tissue organization.

In this report we describe a transplantation system where embryonic spleens are grafted into adult hosts. This model can be used to analyze the cellular and molecular requirements for the development and organization of splenic microenvironments. Whole embryonic day 15 (ED15) spleens, grafted under the kidney capsule of adult mice, were colonized by host-derived lymphocytes and DC and developed normal splenic architecture. Grafts were also able to form germinal centers in response to T-dependent antigen. Using this system we demonstrated that adult host-derived lymphotoxin (LT) alpha was sufficient for the development of ED15 LT alpha(-/-) grafts. Grafting of ED15 LT alpha(-/-) spleens into RAG(-/-) hosts followed by transfer of LT alpha(-/-) splenocytes revealed no requirement for lymphocyte-derived LT alpha in the induction of CCL21 or the development of T-zone stroma. These data suggest that interactions between adult lymphoid-tissue inducer-like cells and embryonic stromal cells initiated T-zone development. Furthermore, adult lymphoid tissue inducer-like cells were shown to develop from bone marrow-derived progenitors. The model described here demonstrates a method of transferring whole splenic microenvironments and dissecting the stromal and hematopoietic signals involved in spleen development and organization.

Role of CD30 in B/T segregation in the spleen.

In this report, we identify an important function for CD30 signals in the effective segregation of B and T lymphocytes in the murine spleen, additional to the recognized requirement for lymphotoxin signals. We show that CD30 signals are not required for transcription or protein expression of homeostatic chemokines, but CD30-deficient mice display impaired B/T segregation. This defect correlates with defective expression as detected by Abs of the transmembrane mucin-type protein podoplanin on T zone stroma, although expression at other sites is normal. Defective segregation is not intrinsic to CD30-deficient lymphocytes which segregate normally following transfer into RAG-deficient mice and significantly up-regulate the expression of both CCL21 and podoplanin on T zone stroma of RAG-deficient mice. During development, induction of expression of the CD30 ligand by lymphoid tissue inducer cells and podoplanin by T zone stroma are temporally linked, and the spatial association of these cells suggests that lymphoid tissue inducer cells are capable of providing the CD30 signals. Finally, we show that the appearance of podoplanin on T zone stroma in development is associated with B/T segregation of splenic white pulp areas. Our studies indicate that homeostatic chemokine expression by itself is not sufficient for B/T segregation and our data point to a significant role for podoplanin or molecules associated with podoplanin expressing stroma in the effective segregation of lymphocytes.

RANK signals from CD4(+)3(-) inducer cells regulate development of Aire-expressing epithelial cells in the thymic medulla.

Aire-expressing medullary thymic epithelial cells (mTECs) play a key role in preventing autoimmunity by expressing tissue-restricted antigens to help purge the emerging T cell receptor repertoire of self-reactive specificities. Here we demonstrate a novel role for a CD4(+)3(-) inducer cell population, previously linked to development of organized secondary lymphoid structures and maintenance of T cell memory in the functional regulation of Aire-mediated promiscuous gene expression in the thymus. CD4(+)3(-) cells are closely associated with mTECs in adult thymus, and in fetal thymus their appearance is temporally linked with the appearance of Aire(+) mTECs. We show that RANKL signals from this cell promote the maturation of RANK-expressing CD80(-)Aire(-) mTEC progenitors into CD80(+)Aire(+) mTECs, and that transplantation of RANK-deficient thymic stroma into immunodeficient hosts induces autoimmunity. Collectively, our data reveal cellular and molecular mechanisms leading to the generation of Aire(+) mTECs and highlight a previously unrecognized role for CD4(+)3(-)RANKL(+) inducer cells in intrathymic self-tolerance.

Function of CD4+CD3- cells in relation to B- and T-zone stroma in spleen.

Lymphocytes from lymphotoxin (LT) alpha-deficient mice, which lack segregation of their B- and T-cell areas, acquire normal organization following adoptive transfer into RAG-deficient recipients, identifying a non-B non-T cell in the segregation process. Here we show that a CD4+CD3- accessory cell is tightly associated with discrete VCAM-1-expressing stromal cells in B- and T-cell areas of the mouse spleen. CD4+CD3- cells express high levels of LTalpha, LTbeta, and tumor necrosis factor (TNF) alpha, which are the ligands for the LTbeta receptor and TNFR1 expressed by stromal cells. The expression of these ligands is functional, as transferring CD4+CD3- cells derived from either embryonic or adult tissues into LTalpha-deficient mice organizes B/T segregation and up-regulates CCL21 protein expression in areas where T cells are segregated from B cells. We propose that the function of CD4+CD3- cells is to form a link between primed CD4 T cells and the underlying stromal elements, creating distinct microenvironments in which they enable effector responses.