Reactivation of a hematopoietic endocrine program of pregnancy contributes to recovery from thrombocytopenia.

Regulation of blood platelet levels involves an array of cytokines, including the placental hormone PRL-like protein E (PLP-E). The PLP-E receptor is present on megakaryocytes in pregnant mice, nonpregnant female mice, and male mice. Other known megakaryocytic cytokines do not share the PLP-E receptor, and thus the presence of this receptor in nonpregnant animals suggests that PLP-E may be expressed in tissues other than the placenta. Consistent with this prediction, PLP-E is produced in thrombocytopenic mouse bone marrow, primarily in granulocytes, but not in normal mouse bone marrow. Serum from thrombocytopenic mice, purified thrombopoietin or IL-6, or pregnancy can induce bone marrow cell expression of PLP-E. The induction of PLP-E gene expression in response to thrombocytopenia is physiologically significant, as injection of PLP-E into thrombocytopenic mice restores normal platelet levels with no effect on granulocytes, erythrocytes, and total white blood cell counts. We conclude that inducible expression of PLP-E in bone marrow is part of the mechanism of recovery from thrombocytopenia. These results also suggest a more general concept: that the endocrine program of pregnancy, which in mammals has evolved to support the intrauterine growth and development of the fetus, can also be harnessed to respond to pathophysiology.