Tolerance induction to self-MHC antigens in fetal and neonatal mouse B cells.

We have studied the mechanisms of tolerance induction to self-MHC antigens in mouse B cells during fetal development and the post-natal period. To monitor the fate of autoreactive B cell clones, we used the 3-83 micro delta B cell receptor (BCR)-transgenic (Tg) and -knock-in (KI) mouse models. These BCR-Tg and -KI B cells recognize the MHC class I molecules H-2K(k) and H-2K(b), with a high or moderate affinity, respectively.

Affinity-dependent alterations of mouse B cell development by noninherited maternal antigen.

We have examined the passage of maternal cells into the fetus during the gestation and postpartum in mice. Using enhanced green fluorescent protein (EGFP)-transgenic females, we showed that maternal cells frequently gain access to the fetus, mostly in syngeneic pregnancies, but also in allogeneic and outbred crosses. EGFP-transgenic cells, including B, T, and natural killer cells, can persist until adulthood, primarily in bone marrow and thymus.

Transgenic major histocompatibility complex class I antigen expressed in mouse trophoblast affects maternal immature B cells.

We have produced transgenic mice using the mouse placental lactogen type II promoter to force and restrict the expression of the mouse major histocompatibility complex (MHC) class I molecule, H-2K(b), to the placenta. We show that the transgenic MHC antigen H-2K(b) is expressed exclusively in trophoblast giant cells from Day 10.5 until the end of gestation.

Integrins of the beta1 family influence keratinocyte-lymphocyte interaction.

Data from the literature indicate that ICAM-1 molecules play an important role in keratinocyte interactions with lymphocytes via the lymphocyte function-associated-1 lymphocyte-adhesion molecule. We examined the role of beta1 integrins in keratinocyte-lymphocyte adhesion under different activation conditions. Among the beta1 integrins expressed on keratinocytes and lymphocytes detected by indirect immunofluorescence microscopy and flow cytofluorometry, primarily the alpha2 and the alpha3 subunits on both cell types were involved in keratinocyte-lymphocyte adhesion.

Human keratinocyte models: Assessment of cell adhesion and dermotoxicity using fluorescent probes.

To assess the molecular and cellular events that occur in the skin during biological and pharmaco-toxicological processes, we developed different in vitro models. Two major systems are described: (1) relatively simple ones such as normal human keratinocytes (NHK) grown in monolayer or continuous culture of spontaneously immortalized keratinocyte cells, the HaCaT cell line. This cell line forms a monolayer and displays the same phenotypic morphology, pattern of differentiation markers as NHK.