The Effects of Lamin B Receptor knockdown on a Myeloid Leukemia Cell

Abstract

AbstractIn an effort to extend our understanding of the genetic functions of the nuclear envelope protein Lamin B Receptor (LBR), we examined the effect of a stable short hairpin (sh1) RNAi knockdown of LBR on the transcriptome and immunostained morphology of the human myeloid leukemia cell line (HL-60/S4). This examination was on sh1 cells induced to granulocytic form with Retinoic Acid (RA) versus sh1 cells maintained undifferentiated (0). By comparison to control cells (i.e., not sh1), we obtained gene lists that were differentially expressed only in the LBR knockdown cell line (i.e., “only-sh1-down” and “only-sh1-up”), in RA versus 0 cells. These curated gene lists were examined by Gene Ontology (GO) analysis. Aside from chromatin related GO terms, the most surprising finding was a significant downregulation of Golgi related genes only in the sh1 cells. Possible relationships between the “Cis-Golgi-Network” and LBR are discussed. Another surprise was a significant upregulation of “Ribosome” protein transcripts only in the sh1 cells. In parallel to these findings, an immunostaining comparison of nucleoli in S4 and sh1 cells demonstrated that the number and location of nucleoli in a single nucleus differs, depending upon the presence of LBR. Speculations on the influence of LBR levels upon the liquid-liquid phase separation model of nucleolar condensation are presented.