Routine HIV testing program in the University Infectious Diseases Centre in Lithuania: a four-year analysis.

Background: HIV transmission remains a major concern in Eastern Europe, and too many people are diagnosed late. Expanded testing strategies and early and appropriate access to care are required. Infectious disease departments might be targets for expanded HIV testing owing to the intense passage of key patient populations that carry indicators of HIV disease.

Pocket protein complexes are recruited to distinct targets in quiescent and proliferating cells.

Biochemical and genetic studies have determined that retinoblastoma protein (pRB) tumor suppressor family members have overlapping functions. However, these studies have largely failed to distinguish functional differences between the highly related p107 and p130 proteins. Moreover, most studies pertaining to the pRB family and its principal target, the E2F transcription factor, have focused on cells that have reinitiated a cell cycle from quiescence, although recent studies suggest that cycling cells exhibit layers of regulation distinct from mitogenically stimulated cells.

A common set of gene regulatory networks links metabolism and growth inhibition.

Using genome-wide analysis of transcription factor occupancy, we investigated the mechanisms underlying three mammalian growth arrest pathways that require the pRB tumor suppressor family. We found that p130 and E2F4 cooperatively repress a common set of genes under each growth arrest condition and showed that growth arrest is achieved through repression of a core set of genes involved not only in cell cycle control but also mitochondrial biogenesis and metabolism. Motif-finding algorithms predicted the existence of nuclear respiratory factor-1 (NRF1) binding sites in E2F target promoters, and genome-wide factor binding analysis confirmed our predictions.

The timing and extent of activation of diacylglycerol-responsive protein kinase-cs determines their ability to inhibit or promote platelet-derived growth factor-dependent DNA synthesis.

In response to natural agonists, such as platelet-derived growth factor (PDGF), diacylglycerol-responsive protein kinase Cs (PKCs) are activated at two distinct times, early and mid G1, and only the late activity is required for the transition into S phase. Surprisingly, the potent PKC activator phorbol 12-myristate 13-acetate (PMA) inhibits DNA synthesis when it is added in mid G1. Here we investigated why different PKC agonists had opposing effects on cell proliferation.

Wnt glycoproteins regulate the expression of FoxN1, the gene defective in nude mice.

T cell development and selection require the fully mature and diverse epithelial microenvironment of the thymus. Acquisition of these characteristics is dependent on expression of the forkhead (also known as winged-helix) transcription factor FoxN1, as a lack of functional FoxN1 results in aberrant epithelial morphogenesis and an inability to attract lymphoid precursors to the thymus primordium. However, the transcriptional control of Foxn1 expression has not been elucidated.