Kaposi's sarcoma-associated herpesvirus (KSHV/HHV-8) is a human-oncogenic herpesvirus. Cells from KSHV-associated tumors, such as Kaposi's sarcoma (KS) and primary effusion lymphoma (PEL), are of endothelial and B-cell origin, respectively. KSHV persists indefinitely in these cell lineages during latent infection. Indeed, cellular latency is a hallmark of all herpesviruses that is intimately linked to their pathogenesis. We previously characterized the promoter for the KSHV latency-associated nuclear antigen LANA/orf73. LANA is required for latent episome maintenance and has also been implicated in oncogenesis. Hence, regulation of LANA expression is critical to KSHV persistence. We find that a region extending to bp −1299 upstream of the LANA transcription start site is able to drive lacZ-reporter gene expression in several lines of transgenic mice. In agreement with KSHV's natural tropism, we detected reporter gene expression in CD19-positive B cells but not in CD3-positive T cells. We also detected expression in the kidney and, at a lower level, in the liver. In contrast to KS tumors, transgene expression was localized to kidney tubular epithelium rather than vascular endothelial cells. This suggests that our promoter fragment contains all cis-regulatory elements sufficient for B-cell specificity but not those required for endothelial specificity. Alternatively, while the trans-acting factors required for LANA expression in B cells are evolutionarily conserved, those that regulate endothelial cell-specific expression are unique to humans. Our in vivo studies address a conundrum in KSHV biology: in culture, KSHV is able to infect a variety of cell types indiscriminately, while in healthy latent carriers KSHV is found in B lymphocytes. The transgenic-mouse experiments reported here suggest that tissue-restricted LANA gene expression could explain B-cell-specific viral persistence.