Distinct positive and negative regulatory elements control neuronal and hepatic transcription of the human transferrin gene

Transferrin (Tf), the iron‐transport protein, plays an essential role in the central nervous system development, plasticity, and aging. As a first step toward elucidating the role of each transcription factor involved in the regulation of Tf gene expression, we have recently shown that similar promoter elements direct cell‐type specific transcription in oligodendrocytes, epithelial choroid plexus cells, and in the neuronal cell line B103. Here we have analyzed the regulatory elements that control the level of expression of the Tf gene in neuronal cells. Transient expression experiments in B103 cells revealed that the −164/+1 promoter region is stimulated by a position‐dependent −1140/−1000 upstream region. DNase I footprinting, gel retardation assays, and antibody reactivity data allowed us to characterize the nuclear factors interacting with this region. The upstream region I‐binding protein (URI‐BP) belongs to the steroid/retinoid receptor family, while URII‐BP is a member of the nuclear factor I (NF‐I) family. Interestingly, no enhancer nor silencer activity is detected in B103 cells. This contrasts with our findings in hepatoma cells, where the activity of the −125/+1 promoter can be repressed by a −1000/−819 upstream negative‐acting region and stimulated by the −3600/−3300 enhancer. We demonstrate that the negative‐acting region presents the characteristics of a silencer that interacts with a nuclear protein present in liver and absent in B103 cells. Similarly, B103 cells lack a nuclear protein able to bind to an essential site of the enhancer. This shows that in B103 cells, the inactivity of the silencer and the enhancer regions results from the absence of at least one essential nuclear protein. © 1996 Wiley‐Liss, Inc.