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Twelve-day-old hypertransfused neonatal rats nursed for four days by a twice-bled mother exhibited higher 48-hour RBC-59Fe incorporation than control neonates nursed by a normal mother. Erythroprotein (Ep) in plasma of 12-day-old hypertransfused neonates suckled for four days to twice-bled mothers was initially equivalent to approximately 0.5 IU/day. This calculation was based on the observation that reticulocytosis induced in these animals was similar to that produced in neonates of the same age injected intraperitoneally with 0.5 IU Ep for four days while nursing from normal mothers. The reticulocyte maturation curve was shifted to the left in 12-day-old hypertransfused neonates suckled by anemic mothers, and in 12-day-old normal neonates rendered anemic by bleeding, while nursing from normal mothers. This left-shift of the reticulocyte maturation curve was also evident in 12-day-old hypertransfused neonates injected with Ep. Decreases in relative percentages of nucleated RBC was evident in spleens of 12-day-old neonates nursed by anemia mothers and spleens of 12-day-olds injected with Ep. Significant reduction in nucleated RBC were noted in both spleen and marrow of 12-day-old anemic neonates. These results suggest: (1) Ep, present in increased amounts in the anemic mother, is transmitted through milk to nursing neonates thereby stimulating erythropoiesis in these animals; (2) Ep may not stimulate stem cell differentiation towards the e4ythroid compartment but rather acts on already differentiated erythroid cells by influencing their rate of maturation.
Anat Rec 1978 Jun
PMID:Erythropoietic response of hypertransfused neonatal rats suckled by anemic mothers. 56 21

Bone marrow from adult rats fed a vitamin B6 deficient diet for two weeks was found to have reduced numbers of neutrophils, erythroid cells and small lymphocytes. The numbers of transitional cells were not reduced. Since the small lymphocyte population in the bone marrow consists of B cells and null cells in approximately the same proportion, it was concluded that both cell types were reduced as a result of the deficiency. A complete recovery in the cellularity of the bone marrow was brought about by returning the vitamin B6 deficient animals to a normal diet for four weeks. Other effects of the two-week vitamin B6 deficient diet included a failure to gain weight, a decrease in thymus weight and a reduction in the numbers of white blood cells in the peripheral blood. All of these defects were corrected after the animals had been fed a normal diet for four weeks.
Anat Rec 1978 May
PMID:The effects of vitamin B6 deficiency on the bone marrow of the rat. 64 37

The experiments were designed to test whether or not erythroblast progenitor cell function could be demonstrated in a morphological cell type designated as "transitional cells." Two cell fractions, were obtained from the bone marrow of normal and polycythemic guinea pigs. One fraction (F1) was enriched in transitional cells and contained few, if any, other cell types which could be considered as candidates for erythropoietin responsive cells (ERC). The other fraction (F2) contained undifferentiated blast cells as well as transitional cells. The effect of human urinary erythropoiesis stimulating factors (ESF) on heme synthesis was compared in these two fractions by measuring 59Fe incorporation into heme. ESF was more effective in stimulating heme synthesis in guinea pig bone marrow cells than homologous sera obtained from anemic or hypoxic animals. The majority of ERC sedimented in F2, but the stimulation index was comparable in the two fractions. It was confirmed by radioautography that the ESF response in F1 was due to the generation of proerythroblasts and basophilic erythroblasts that incorporated 55Fe. The generation of these cells in F1 was dependent on the addition of ESF to the cultures, whereas 55Fe-labeled erythroblasts were recovered from cultured of F2 not supplemented with ESF. ESF induced a proportion of transitional cells to incorporate 55Fe in both F1 and F2. Transitional cells were the only cell type in which heme synthesis was dependent on ESF. in other cells of clearly nonerythroid morphology (mononuclear phagocytes and reticular cells), 55Fe incorporation occurred independent of ESF. Although the fractionation procedure employed is unsuitable for the separation of ERC from bone marrow, it permitted the enrichment of transitional cells, a cell type defined by morphology. Radioautography with 55Fe identified a proportion of these cells as ERC in both F1 and F2 fractions of bone marrow obtained from normal and polycythemic guinea pigs. Although there may be other cell types in F2 capable of responding to ESF, the present studies show that some transitional cells function as progenitors of erythroblasts because they respond to ESF by initiation of heme synthesis and by transformation into the earliest recognizable erythroid cells.
Anat Rec 1978 Jun
PMID:Progenitor cells of erythroblasts: an in vitro investigation of erythropoietin-responsive cells of guinea pig bone marrow. 66 14

The effects of neonatal thymectomy on the development of the lymphoid, erythroid and granulocytic cell populations in mouse bone marrow have been assessed by quantitative techniques. The numbers per unit volume of bone marrow of 17 cell types were determined in neonatally thymectomized and sham thymectomized C3H mice at two, four and eight weeks of age, and compared with those of normal C3H mice. After neonatal thymectomy the numbers of small lymphocytes, large and medium-sized lymphoid cells, and erythroid cells reached normal levels at two weeks but fell progressively to 18%, 22% and 42% of normal, respectively, by eight weeks. In sham thymectomized mice these cell populations did not differ significantly from normal. Immature and mature granulocytes were elevated in numbers two weeks after either neonatal thymectomy or sham thymectomy, suggesting a transient non-specific stimulation of granulocytopoiesis. During continuous infusion of 3H-thymidine for ten days in neonatally thymectomized mice aged four weeks and eight weeks many bone marrow small lymphocytes remained unlabeled. The results demonstrate that early postnatal development of bone marrow lymphoid and erythroid cells proceeds normally in the absence of the thymus, in accord with the concept of the bone marrow as a primary site of lymphocyte production and differentiation. In addition, some slowly-renewing small lymphocytes in bone marrow appear to be thymus-independent cells.
Anat Rec 1976 Mar
PMID:Quantitative studies of lymphocytes and other cell populations in the bone marrow of neonatally thymectomized C3H mice. 94 68

The effect of phenylhydrazine (PHZ) on the hematopoietic events in the embryonic spleen of C57Bl/6J mice was examined by light and electron microscopy. Following PHZ in injections to the mothers, the embryonic spleen revealed a marked increase in erythroid precursors, with a shift to mature cells. This phenomenon was part of a more generalized stimulation of erythorpoiesis, expressed by a shift to mature red cell precursors in the embryonic livers and an increase in the percentage of non-nucleated cells in the embryonic peripheral blood. Concomitantly stimulation of phagocytosis in the spleen of embryos in the early gestational days and increased vascularity were observed, and a later effect of granulocytopoietic stimulation. The effect on erythropoiesis in the embryonic spleen might be a sequence of erythropoietin stimulation, either in the mothers or the fetuses, due to anemia and hypoxia following PHZ injections.
Anat Rec 1975 May
PMID:Hematopoiesis in the embryonic mouse spleen. II. Alterations after phenylhydrazine administration to the mothers. 115 87

Incorporation of Fe55 in vivo was used for verifying on radioautographs the identity of chicken bone marrow cells that are in the process of hemesyntheses. Under the experimental conditions all labeled cells may be considered to be linked with erythroid differentiation. They were classified into five maturational stages according to their morphology and capacity for DNA synthesis. Granulocytes were identified by the presence of specific granules. All mononuclear cells were classified as lymphocytes which had a pachychromatic nucleus, a high nucleocytoplasmic ratio, lacked the capacity for DNA synthesis, and resembled small lymphocytes of the bursa, spleen and bone marrow that bound, in vitro, anti-chicken gamma globulins labeled with I125. Radioautography with H3TdR was used to identify proliferating and non-proliferating members of each cell population.
Anat Rec 1976 Jun
PMID:Cellular composition of the bone marrow in the chicken. I. Identification of cells. 127 9

We isolated a novel infectious murine leukemia virus (HoMuLV) from the wild mouse Mus hortulanus. HoMuLV has an ecotropic virus host range, but the viral DNA fails to hybridize to viral envelope segments specific for the known inbred and wild mouse ecotropic as well as nonecotropic MuLVs. Despite this difference in its env gene, HoMuLV appears to use the same ecotropic cell-surface receptor since it infects only hamster and mouse somatic cell hybrids which contain the Rec-1 ecotropic virus receptor on chromosome 5. Furthermore, HoMuLV does not infect mice carrying the Fv-4r allele which is thought to prevent ecotropic virus infection through an interference mechanism. HoMuLV is NB-tropic and, unlike other infectious MuLVs, does not grow in cells derived from the wild mouse species. M. dunni. Five to ten months after neonatal inoculation with HoMuLV, 72% of female NIH Swiss mice (8/11) contracted lymphoma or erythroid leukemia, but 33% of the inoculated males (5/15) developed erythroid or myelogenous leukemia within 8-16 months. These data suggest that NIH Swiss males and females differ in their susceptibility to HoMuLV-induced disease. Furthermore, NIH Swiss mice were found to be more susceptible to HoMuLV-induced disease than NFS/N mice. Tumors contained infectious MCF virus, which is consistent with the hypothesis that MCF virus may mediate tumorigenesis by HoMuLV.
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PMID:HoMuLV: a novel pathogenic ecotropic virus isolated from the European mouse, Mus hortulanus. 284 96

Light microscopic, scanning electron microscopic, and transmission electron microscopic studies of the early developmental stages of chick embryonic bone marrow disclose characteristic associations of the first hematopoietic cells with stromal cells. The first hematopoietic cells, large basophilic cells that we have termed presumptive stem cells, segregate into erythropoietic and granulopoietic regions. Intravascular erythropoietic cells associate with sinusoidal endothelial cells, while granulopoietic cells associate with extravascular reticular cells. Extensive, intimate contacts between erythroid and endothelial cells are maintained, in part, by marginal arrays of microtubules, which promote a flattening of the adherent erythroid cell surface. In addition, cell surface components of opposing cells, visualized by ruthenium red staining, appear to merge and possibly to interact. Granulopoietic cells establish intimate but less extensive associations with reticular cells through cell-surface interactions. Stationary granuloid cells appear to be held in place by small, thin processes emanating from the sheet-like reticular cells. Granuloid cells are capable of moving within the extravascular region, using reticular cell surfaces as a substrate. Intimate associations also occur among granulopoietic cells, the significance of which is unclear. Thus, sinusoidal endothelial cells and reticular cells comprise the critical non-hematopoietic or stromal elements of avian bone marrow, where they have a putative role in segregating presumptive stem cells into erythrocyteic and granulocytic compartments. They serve as an architectual, and possibly regulatory, framework on which hematopoiesis occurs.
Anat Rec 1980 May
PMID:Cell interactions between hematopoietic and stromal cells in the embryonic chick bone marrow. 742 3

The acute-phase protein alpha 1-antitrypsin (alpha 1-AT) has been shown to inhibit the binding of transferrin to its cell-surface receptor. Here we demonstrate that in human erythroleukaemic cells (K562) alpha 1-AT enhances the binding affinity of iron-regulatory protein (IRP), the central regulator of cellular iron metabolism, to iron-responsive elements. Activation of IRP by alpha 1-AT is associated with a marked increase in transferrin receptor (trf-rec) mRNA levels in K562 and enhanced cell-surface expression of transferrin-binding sites, whereas ferritin production is decreased, although ferritin mRNA levels remain unchanged. In agreement with the well-established mechanism of cellular iron regulation, alpha 1-AT seems to modulate trf-rec and ferritin expression primarily post-transcriptionally/translationally by influencing IRP activity. In contrast, alpha 1-AT produces only minor changes in IRP activity, and subsequently in trf-rec expression and ferritin synthesis in THP-1 cells. Moreover the effects of alpha 1-AT on iron homeostasis in K562 cannot be overcome by the addition of iron salts, whereas concomitant treatment of THP-1 with iron and alpha 1-AT results in the same metabolic changes as the addition of iron alone. Because alpha 1-AT blocks transferrin binding on K562 as well as on THP-1 cells, it is suggested, on the basis of the results presented here, (1) that erythroid and monocytic cells might differ in their dependence on transferrin-mediated iron supply and (2) that THP-1 might be able to acquire iron by a transferrin-independent iron uptake system. alpha 1-AT might therefore be involved in the diversion of iron traffic between various cellular compartments under inflammatory conditions.
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PMID:Divergent effects of alpha 1-antitrypsin on the regulation of iron metabolism in human erythroleukaemic (K562) and myelomonocytic (THP-1) cells. 892 Sep 96

Erythropoietin (Epo) is the central regulator of red blood cell production and acts primarily by inducing proliferation and differentiation of erythroid progenitor cells. Because a sufficient supply of iron is a prerequisite for erythroid proliferation and hemoglobin synthesis, we have investigated whether Epo can regulate cellular iron metabolism. We present here a novel biologic function of Epo, namely as a potential modulator of cellular iron homeostasis. We show that, in human (K562) and murine erythroleukemic cells (MEL), Epo enhances the binding affinity of iron-regulatory protein (IRP)-1, the central regulator of cellular iron metabolism, to specific RNA stem-loop structures, known as iron-responsive elements (IREs). Activation of IRP-1 by Epo is associated with a marked increase in transferrin receptor (trf-rec) mRNA levels in K562 and MEL, enhanced cell surface expression of trf-recs, and increased uptake of iron into cells. These findings are in agreement with the well-established mechanism whereby high-affinity binding of IRPs to IREs stabilizes trf-rec mRNA by protecting it from degradation by a specific RNase. The effects of Epo on IRE-binding of IRPs were not observed in human myelomonocytic cells (THP-1), which indicates that this response to Epo is not a general mechanism observed in all cells but is likely to be erythroid-specific. Our results provide evidence for a direct functional connection between Epo biology and iron metabolism by which Epo increases iron uptake into erythroid progenitor cells via posttranscriptional induction of trf-rec expression. Our data suggest that sequential administration of Epo and iron might improve the response to Epo therapy in some anemias.
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PMID:Regulation of cellular iron metabolism by erythropoietin: activation of iron-regulatory protein and upregulation of transferrin receptor expression in erythroid cells. 900 72

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