During EPO or anemia challenge, erythroid progenitor cells transit through a selectively expandable proerythroblast pool.

Investigations of bone marrow (BM) erythroblast development are important for clinical concerns but are hindered by progenitor cell and tissue availability. We therefore sought to more specifically define dynamics, and key regulators, of the formation of developing BM erythroid cell cohorts. A unique Kit(-)CD71(high)Ter119(-) "stage E2" proerythroblast pool first is described, which (unlike its Kit(+) "stage E1" progenitors, or maturing Ter119(+) "stage E3" progeny) proved to selectively expand ∼ 7-fold on erythropoietin challenge.

CNTO 530 functions as a potent EPO mimetic via unique sustained effects on bone marrow proerythroblast pools.

Anemia as associated with numerous clinical conditions can be debilitating, but frequently can be treated via administration of epoetin-alfa, darbepoietin-alfa, or methoxy-PEG epoetin-beta. Despite the complexity of EPO-EPO receptor interactions, the development of interesting EPO mimetic peptides (EMPs) also has been possible. CNTO 530 is one such novel MIMETIBODY Fc-domain dimeric EMP fusion protein.

EPO receptor circuits for primary erythroblast survival.

EPO functions primarily as an erythroblast survival factor, and its antiapoptotic actions have been proposed to involve predominantly PI3-kinase and BCL-X pathways. Presently, the nature of EPO-regulated survival genes has been investigated through transcriptome analyses of highly responsive, primary bone marrow erythroblasts. Two proapoptotic factors, Bim and FoxO3a, were rapidly repressed not only via the wild-type EPOR, but also by PY-deficient knocked-in EPOR alleles.

Hsp90 inhibition decreases mitochondrial protein turnover.

Background: Cells treated with hsp90 inhibitors exhibit pleiotropic changes, including an expansion of the mitochondrial compartment, accompanied by mitochondrial fragmentation and condensed mitochondrial morphology, with ultimate compromise of mitochondrial integrity and apoptosis.

Findings: We identified several mitochondrial oxidative phosphorylation complex subunits, including several encoded by mtDNA, that are upregulated by hsp90 inhibitors, without corresponding changes in mRNA abundance. Post-transcriptional accumulation of mitochondrial proteins observed with hsp90 inhibitors is also seen in cells treated with proteasome inhibitors.

2-Methoxy antimycin reveals a unique mechanism for Bcl-x(L) inhibition.

Overexpression of Bcl-x(L) in multiple cancers correlates with resistance to chemotherapy and radiation therapy, and provides a rationale for development of small-molecule Bcl-x(L) inhibitors. Based on knockout studies, nonneoplastic cells also require Bcl-x(L) survival functions, particularly when challenged with cytotoxic agents. We analyze the selective cytotoxicity of one Bcl-x(L) inhibitor, 2-methoxy antimycin A, toward cells with excess exogenous Bcl-x(L) in isogenic cell line pairs.