Multiple CD11c+ cells collaboratively express IL-1β to modulate stromal vascular endothelial growth factor and lymph node vascular-stromal growth.

Lymphadenopathy in autoimmune and other lymphoproliferative diseases is in part characterized by immunoblasts and vascular proliferation. The lymph node vasculature, along with the nonvascular stromal compartment, supports lymphocyte function, and targeting vascular-stromal expansion in inflamed nodes may modulate lymphocyte function in disease. CD11c(+) cells are essential for vascular-stromal proliferation and the upregulation of vascular endothelial growth factor (VEGF) needed for vascular proliferation.

Lymph node vascular-stromal growth and function as a potential target for controlling immunity.

Lymphadenopathy occurs in many autoimmune and inflammatory diseases, and vascular proliferation is a common feature in the enlarged lymph nodes. The lymph node vasculature plays critical roles in delivering immune cells as well as oxygen and micronutrients, and therefore represents a potential target for therapeutic manipulation of immunity. In this review, we discuss recent insights made in understanding the growth and function of the vascular and associated stromal compartment in immune-stimulated lymph nodes and the potential utility of altering this process in autoimmune diseases.

Coordinated regulation of lymph node vascular-stromal growth first by CD11c+ cells and then by T and B cells.

Lymph node blood vessels play important roles in the support and trafficking of immune cells. The blood vasculature is a component of the vascular-stromal compartment that also includes the lymphatic vasculature and fibroblastic reticular cells (FRCs). During immune responses as lymph nodes swell, the blood vasculature undergoes a rapid proliferative growth that is initially dependent on CD11c(+) cells and vascular endothelial growth factor (VEGF) but is independent of lymphocytes.

Multiple regulatory regions control the complex expression pattern of the mouse Cdx2 homeobox gene.

Background & Aims: The Cdx2 homeobox gene exerts multiple functions including trophectoderm specification, antero-posterior patterning, and determination of intestinal identity. The aim of this study was to map genomic regions that regulate the transcription of Cdx2, with a particular interest in the gut.

Methods: Genomic fragments covering 13 kilobase (kb) of the mouse Cdx2 locus were analyzed in transgenic mice and in cell assays.

The microenvironment controls CDX2 homeobox gene expression in colorectal cancer cells.

The homeobox gene CDX2 plays a major role in development, especially in the gut, and it also acts as a tumor suppressor in the adult colon. Using orthotopic and heterotopic xenografts of human primary colorectal tumor cells and cell lines in nude mice, we addressed the effect of the microenvironment on CDX2 expression. In cells expressing CDX2 at a high level in culture, this level was maintained in subcutaneous grafts but was reduced when implanted into the cecum wall.