Nancye Files scite author profile

Combined chemical and autoradiographic studies in rats injected with tritiated thymidine indicate that acute red cell sequestration stimulates reticuloendothelial (RE) proliferation. In the spleen DNA synthesis is most markedly stimulated in the marginal zone which is also the initial site of red cell sequestration. This proliferative response involves several division steps and eventuates in a colonization of the red pulp with increased numbers of all cell lines native to the spleen. In both spleen and liver there occurs also a generalized stimulation of division in the macrophages and littoral cells which involves only 1 or 2 division steps. Chronic compensated hemolytic anemia achieved in rats by injections of phenylhydrazine caused functional overactivity of the RE system, including increased sequestering function and hypergammaglobulinemia. This splenic hyperplasia did not entirely regress after cessation of the injections. In man the splenomegaly of a chronic non-immunological hemolytic anemia, hereditary spherocytosis, was found to involve a marked (average: 8-fold) hyperplasia of all spleen cellular elements. Neither the acute nor chronic proliferative reaction appears to arise from immunological or "toxic" stimuli and the findings support the view that the size of the RE system is a function of its particulate "work load." It is suggested that the cytoproliferative aspects of immune responses may depend upon non-specific, usually particulate stimulation. After prolonged stimulation, hyperplasia of the RES may become partly irreversible.

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The Sites of Hemoglobin Catabolism

Keene

Jandl

Files

1965

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Hemoglobin is cleared from plasma principally by the liver, moderately by the marrow, and relatively little by the spleen or other organs. Haptoglobin binding has no effect on this relative distribution, its only discernible role in hemoglobin clearance or catabolism being that of preventing the renal loss of hemoglobin. When bone marrow is depleted of parenchymal cells, as by cytotoxic chemicals or protein deprivation, its ability to take up hemoglobin from plasma is markedly enhanced.

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Preparation of Rat Islet B-Cell-Enriched Fractions by Light-Scatter Flow Cytometry

Rabinovitch

Russell

Shienvold

et al. 1982

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Flow cytometry has been examined as a method to separate islet cells into homogeneous subpopulations. Collagenase-isolated rat islets were dissociated into single cells and these were analyzed and sorted according to their low forward angle light scattering properties by using automated flow cytometry. Light scatter histograms showed two peaks of viable cells. Radioimmunoassay of hormone content in cell fractions collected across the the two peaks showed that glucagon-containing cells were concentrated towards the left side of the left peak and somatostatin-containing cells were concentrated towards the right side of the left peak, whereas insulin-containing cells were clearly enriched in the right peak. The B-cell-enriched fraction (90% B cells, 3% A cells, 2% D cells) exhibited significant insulin secretory responses to glucose (16.7 mM), and 3-isobutyl-1-methylxanthine (0.1 mM), during a 24-h culture period, and these responses were slightly greater than those observed in the original mixed islet cell preparation (66% B cells, 14% A cells, and 4% D cells). These results indicate that flow cytometry can be applied to sort pancreatic islet cells into populations enriched in specific endocrine cell types for further study of the functions of individual cell types.

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Mitosis of Contact-Inhibited 3T3 Preadipocytes Precedes Chemically Induced Differentiation into Adipocytes

Russell¹,

Files

Ingram

1983

Experimental Biology and Medicine

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We studied the conversion of 3T3 cells into adipocytes in vitro after pulsed exposure of confluent, nongrowing cultures to various combinations of the "triggering" agents, methylisobutylxanthine, dexamethasone, and fetal calf serum. Conversion of nongrowing 3T3 preadipocytes into adipocytes takes place after the cells have been stimulated to undergo one round of cell division. Maximal cell division and cytodifferentiation occur only when all three triggering agents are present. I

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Nancye Files

Increased Cell Membrane Permeability in the Pathogenesis of Hereditary Spherocytosis *

Proliferative Response of the Spleen and Liver to Hemolysis

The Sites of Hemoglobin Catabolism

Preparation of Rat Islet B-Cell-Enriched Fractions by Light-Scatter Flow Cytometry

Mitosis of Contact-Inhibited 3T3 Preadipocytes Precedes Chemically Induced Differentiation into Adipocytes

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