STAT1-dependent IgG cell-surface expression in a human B cell line derived from a STAT1-deficient patient.

STAT1 is a key effector of cytokines involved in the resistance to pathogens; its identified transcriptional targets mediate the innate immune response involved in the defense against viruses and bacteria. Little is known about the role of STAT1 in adaptive immunity, including its impact on BCR or surface Ig expression. Analysis of this point is difficult in humans, as STAT1 deficiency is extremely rare. SD patients die early in childhood from a severe immunodeficiency. Herein, a SD B cell line obtained from a SD patient was compared with a B cell line from a STAT1-proficient subject in search of differences in surface Ig expression. In this SD B cell line, a complete absence of surface IgG was noted. The mRNA encoding the surface form of IgG was detected only in STAT1-proficient B cells; the mRNAs encoding the secreted and the surface forms were detected in SD and STAT1-proficient B cells. Re-expression of STAT1 in SD B cells restored surface IgG expression and a functional BCR. Conversely, shRNA silencing of STAT1 in B cells reduced considerably the expression of the surface IgG. Although limited to one B cell line, these results suggest that STAT1 may play an essential role in surface IgG expression in human B cells. Possible mechanisms involve regulation of mRNA splicing, transcription, or both. These observations extend the role of STAT1 further in adaptive immunity, including the regulation of BCR expression

Novel function of STAT1β in B cells: Induction of cell death by a mechanism different from that of STAT1α.

Alternate splicing of STAT1 produces two isoforms: alpha, known as the active form, and beta, previously shown to act as a dominant-negative factor. Most studies have dealt with STAT1alpha, showing its involvement in cell growth control and cell death. To examine the specific function of either isoform in cell death, a naturally STAT1-deficient human B cell line was transfected to express STAT1alpha or STAT1beta. STAT1alpha, expressed alone, enhanced cell death, potentiated the fludarabine-induced apoptosis, and enhanced the nuclear location, the phosphorylation, and the transcriptional activity of p53. Unexpectedly, STAT1beta, expressed alone, induced cell death through a mechanism that was independent of the nuclear function of p53. Indeed, in STAT1beta-expressing B cells, p53 was strictly cytoplasmic where it formed clusters, and there was no induction of the transcriptional activity of p53. These data reveal a novel role of STAT1beta in programmed cell death, which is independent of p53