Erythropoiesis

Erythropoiesis describes a process in which red blood cells develop in the islets bone marrow from multiploid myeloid progenitor cells (hematopoietic stem cells). During the maturation of erythrocytes, cell volume decreases, hemoglobin accumulates, and finally the nucleus is eliminated. The presence of the hormone erythropoietin, iron,  vitamin B 12 and interleukin (IL3, IL4) is essential for development. . Dividing 1 hematopoietic stem cell produces 2 11 erythrocytes. Every minute, 2 × 10 6 are created at the same time. Development takes approximately 7 days.

Differentiation
Precursor cells for erythrocytes (proerythroblasts) develop from a hematopoietic stem cell, which is a common basis for the development of all blood elements, ie megakaryocytes, granulocytes and monocytes.

Proerythroblast
A round cell (14 –20 μm ) with a round core that fills most of its volume, located in the center of the cell. It usually contains 1-2 nuclei and lumpy chromatin. Characteristic is perinuclear clearance and basophilia due to the presence of polyribosomes. The cytoplasm does not contain granules and is poor in organelles (located in the perinuclear brightening). Iron (in the form of the molecule ferritin) accumulates in structures called siderosomes and is important for future hemoglobin synthesis. Its division produces 2 basophilic erythroblasts.

Basophilic erythroblast
The basophilous erythroblast is a spherical cell (12 –16 μm ). Its core is large, spherical and located eccentrically. Chromatin is more condensed than in the case of proerythroblast, nucleoli are not clear. Cytoplasm basophilia is more intense than in the previous stage, due to an increase in the number of polyribosomes due to the onset of hemoglobin synthesis.

Polychromatophilic erythroblast
At this stage of development, the cytoplasm stains change from basophilic to amphiphilic (stained with both acidic and basic dyes) due to increasing hemoglobin concentration. The nucleus shrinks due to chromatin thickening, as well as the cell itself (12 –14 μm). This is the last stage of erythrocyte development, when division can occur.

Orthochromatic erythroblast
Round to oval cell ( '8–10 μm' ) with a small, highly condensed ( 'pyknotic' ) nucleus. This, together with the other organelles, is stored eccentrically. The cytoplasm is clearly eosinophilic due to hemoglobin concentration. The formation of protrusions from the cytoplasm causes the nucleus to be strangled ("extruded") by the cytoskeleton, which is then phagocytosed by macrophages.  'Without a kernel, the cell cannot divide' .

Kulatá až oválná buňka (8–10 μm) s malým, velmi kondenzovaným (pyknotickým) jádrem. To je spolu s ostatními organelami excentricky uloženo. Cytoplazma je jasně eosinofilní díky koncentraci hemoglobinu. Tvorbou výběžků z cytoplazmy dochází prostřednictvím cytoskeletu k odškrcení (extruzi) jádra, které je posléze fagocytováno makrofágy. Bez jádra se buňka nemůže dále dělit.

Reticulocytes
These are non-nuclear blood elements ( '8 μm' ) in a shape resembling a  'biconcave disc' . In the cytoplasm, we find the remnants of polyribosomes stained with  'brilliant crescent blue' . In the bloodstream, they represent 1-2% of the total number of red blood cells. This proportion may increase with increased erythrocyte losses - such as bleeding.

Jedná se o bezjaderné krevní elementy (8 μm) tvarem připomínající bikonkávní disk. V cytoplazmě nacházíme zbytky polyribosomů barvitelné brilant kresilovou modří. V krevním oběhu jsou zastoupeny 1–2 % podílem z celkového množství červených krvinek. Tento podíl může vzrůstat v případě zvýšených ztrát erytrocytů – například při krvácení.

Related artickles

 * Krvetvorba
 * Krev ▪ Erytrocyt ▪ Megakaryocyt ▪ Granulocyt ▪ Monocyt
 * Mitóza
 * Barvení ve světelné mikroskopii

Externí odkazy

 * Krvetvorba (česká wikipedie)