A truncated erythropoietin receptor that fails to prevent programmed cell death of erythroid cells
Y Nakamura, N Komatsu, H Nakauchi - Science, 1992 - science.org
Y Nakamura, N Komatsu, H Nakauchi
Science, 1992•science.orgA form of the human erythropoietin receptor (EPOR) was identified in which the cytoplasmic
region is truncated by alternative splicing. The truncated form of the receptor (EPOR-T) is the
most prevalent form of EPOR in early-stage erythroid progenitor cells, but the full-length
EPOR (EPOR-F) becomes the most prevalent form in late-stage progenitors. EPOR-T can
transduce a mitogenic signal. However, cells transfected with EPOR-T are more prone to
programmed cell death than those expressing EPOR-F. EPOR-F may transduce a signal to …
region is truncated by alternative splicing. The truncated form of the receptor (EPOR-T) is the
most prevalent form of EPOR in early-stage erythroid progenitor cells, but the full-length
EPOR (EPOR-F) becomes the most prevalent form in late-stage progenitors. EPOR-T can
transduce a mitogenic signal. However, cells transfected with EPOR-T are more prone to
programmed cell death than those expressing EPOR-F. EPOR-F may transduce a signal to …
A form of the human erythropoietin receptor (EPOR) was identified in which the cytoplasmic region is truncated by alternative splicing. The truncated form of the receptor (EPOR-T) is the most prevalent form of EPOR in early-stage erythroid progenitor cells, but the full-length EPOR (EPOR-F) becomes the most prevalent form in late-stage progenitors. EPOR-T can transduce a mitogenic signal. However, cells transfected with EPOR-T are more prone to programmed cell death than those expressing EPOR-F. EPOR-F may transduce a signal to prevent programmed cell death that is independent of the mitogenic signal, and alternative splicing of the EPOR gene may have an important role in erythropoiesis.
AAAS