Extramedullary haemopoiesis in fetal and adult human spleen: a quantitative immunohistological study

BS Wilkins, A Green, AE Wild, DB Jones - Histopathology, 1994 - Wiley Online Library
BS Wilkins, A Green, AE Wild, DB Jones
Histopathology, 1994Wiley Online Library
Haemopoietic cells were assessed in spleens from normal adults, adults with splenic
extramedullary haemopoiesis due to chronic myeloproliferative disorders and fetuses of 17–
21 weeks' gestation. A variety of antigens expressed by developing granulocytes and
erythrocytes were demonstrated immunohistochemically. The relative proportions of early
and late precursor cells of these two lineages were quantified. There was no significant
haemopoiesis in normal adult spleen, while there was abundant (predominantly …
Haemopoietic cells were assessed in spleens from normal adults, adults with splenic extramedullary haemopoiesis due to chronic myeloproliferative disorders and fetuses of 17–21 weeks' gestation. A variety of antigens expressed by developing granulocytes and erythrocytes were demonstrated immunohistochemically. The relative proportions of early and late precursor cells of these two lineages were quantified. There was no significant haemopoiesis in normal adult spleen, while there was abundant (predominantly granulocytic) haemopoiesis in patients with chronic myeloproliferative disorders. Fetal spleens contained numerous late erythroid precursors but few early erythroid or granulocytic cells. The relative numbers of early and late haemopoietic cells in adult chronic myeloproliferative disorders and fetal spleens showed statistically significant differences. Our findings indicate that haemopoiesis in the spleens of adult patients with these disorders differs fundamentally from that occurring in fetal life. They support the view that the human spleen does not have a significant role in fetal haemopoiesis, but that it filters circulating nucleated erythroid precursors and is permissive of their terminal differentiation only. Our results also favour the view that adult splenic haemopoiesis originates by displacement of precursor cells from the bone marrow rather than by activation of stem cells which have lain dormant in the spleen since fetal life.
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