D. G. Penington scite author profile

Megakaryocytes mature to the point of cytoplasmic disintergration in three principal ploidy classes: 8n, 16n and 32n. Cells of each of these ploidy classes have been identified, using both microdensitometry and measurement of cell volume and submitted to morphometric analysis. Mature megakaryocytes of the three ploidy classes have been shown to differ in the concentration of cytoplasmic constituents which would be expected to relate to the buoyant density of their platelet progeny. Density separated platelets have been similarly analysed. Light platelets correspond with the 32n megakarycytes and are more liberally endowed with surface connected canalicular system than the progeny of the common 16n megakaryocytes; it is proposed that they have functional characteristics related to this finding. Dense platelets, which are larger in size, correspond with 8n megakaryocytes and show a greater content of granules and mitochondria than platelets of average density. These platelets most probably show specialized function relating to release of granule constituents. Fragments of cytoplasm released from megakaryocytes represent one form of "megathrombocyte" equated by others with newly formed platelets. The differences in structure between these fragments and circulating platelets are emphasized; each such fragment must undergo further disintergration into a number of platelets. It is suggested that the heterogeneity of circulating platelets with respect to both size and density stems from the origin of platelets of varying density from the different populations of megakaryocyte and their release in the form of large cytoplasmic fragments rather than as platelets.

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Megakaryocytes in States of Altered Platelet Production: Cell Numbers, Size and DNA Content

Penington

Olsen

1970

Br J Haematol

149

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Summary. Megakaryocytes have been studied in rats using objective methods, with assessment of numbers of cells, cell diameter and DNA content. Stimulation and suppression of platelet production have been shown to be accompanied by changes in cell diameter, and in numbers of megakaryocytes in the bone marrow and spleen. A method is described permitting measurement of DNA content of the cells under these conditions, using Feulgen staining and an integrating micro‐densitometer. It has been demonstrated that alteration in size is secondary to alteration in ploidy value. The reduction in ploidy following transfusion of platelets was apparent morphologically as a decrease in the number of lobes in the nucleus, but following stimulation of platelet production, an increase in ploidy occurred which was not associated with a discernible increase in nuclear lobulation. Microdensitometry provides the only certain method of objective assessment of megakaryocyte ploidy. It is concluded that the system regulating megakaryocyte proliferation governs DNA replication in both megakaryoblast and stem cells.

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Properties of the exchangeable splenic platelets released into the circulation during exercise‐induced thrombocytosis

1990

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The human spleen normally retains about one-third of the body's platelets in an exchangeable pool which can be released into the circulation by alpha-adrenergic stimulation. Some previous investigators concluded that the splenic platelet population was enriched in a subpopulation of large, young, dense platelets (megathrombocytes) but more recent research suggests that platelet size, age, and density are largely independent variables. In this investigation the properties of the splenic platelets were studied after their release into the circulation by acute strenuous exercise in 11 normal subjects. The exercise caused a rise in mean platelet count from 245 +/- 49 to 328 +/- 71 x 10(9)/L--a net increase of 24 +/- 6% after correction for haemoconcentration. The mean platelet volume (MPV) of citrated platelets increased from 6.38 +/- 0.78 to 6.59 +/- 0.68 fL after exercise (P less than 0.01)--a rise of 3.7 +/- 4.1% suggesting that the MPV of the splenic platelet population was about 20% greater than that of the normal circulating population. The age distribution of the platelets was studied by measuring the platelet monoamine oxidase (MAO) activity several days after irreversible inhibition by tranylcypromine, when the young platelets had normal MAO activity but the older platelets had only 20% of normal activity. The mean platelet MAO activity did not change after exercise, indicating that the age distributions of the circulating and splenic populations were very similar. The platelet contents of several putative markers of platelet age (sialic acid, serotonin, beta-thromboglobulin, beta-N-acetylglucosaminidase) were also unchanged after exercise. Modal platelet density decreased slightly but not significantly after exercise. The splenic platelet population has a larger MPV but appears to have similar age and density distributions to the basal circulating population.

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D. G. Penington

Megakaryocytes and the Heterogeneity of Circulating Platelets

Megakaryocytes in States of Altered Platelet Production: Cell Numbers, Size and DNA Content

Properties of the exchangeable splenic platelets released into the circulation during exercise‐induced thrombocytosis

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