This iron is then reused for erythropoiesis, but additional dietary iron is needed to support healthy RBC life cycles. The bilirubin is excreted through the digestive system in the form of bile, while some of the iron is released into the plasma to be recirculated back into the bone marrow by a carrier protein called transferrin. The biliverdin is reduced to the yellow bile pigment bilirubin, which is released into the plasma and recirculated to the liver, then bound to albumin and stored in the gallbladder. The heme components of hemoglobin are broken down into iron ions and a green bile pigment called biliverdin. Conversely, erythropotein and nitric oxide (a vasodilator) will inhibit eryptosis.įollowing eryptosis, the hemoglobin content within the RBC is broken down and recirculated throughout the body. Many diseases that involve damage to RBCs (hemolytic anemias, sepsis, malaria, pernicious or nutritional anemias) or normal cellular processes that cause cellular damage (oxidative stress) may increase the rate of eryptosis. Eryptosis normally occurs at the same rate as erythropoiesis, keeping the total circulating red blood cell count in a state of equilibrium. This process removes old and defective cells and continually purges the blood. As an RBC ages, it undergoes changes in its plasma membrane that make it susceptible to selective recognition by macrophages and subsequent phagocytosis in the reticuloendothelial system (spleen, liver, and bone marrow). After 24 hours in the bloodstream, reticulocytes mature into functional RBCs.Įryptosis, a form of apoptosis (programmed cell death), is the aging and death of mature RBCs. These immature RBCs that have shed their nuclei following initial differentiation. Just before and after leaving the bone marrow, the developing cells are known as reticulocytes. Deficiency of any of these nutrients may cause anemia, a condition in which there aren’t enough fully functional RBCs carrying oxygen in the bloodstream. These dietary nutrients that are necessary for proper synthesis of hemoglobin (iron) and normal RBC development (B12 and folic acid). In the last stages of development, the immature RBCs absorb iron, Vitamin B12, and folic acid. In the embryo, the liver is the main site of red blood cell production and bears similar types of stem cells at this stage of development.Įrythropoiesis can be stimulated by the hormone erythropoietin, which is synthesized by the kidney in response to hypoxia (systemic oxygen deficiency). Unlike mature RBCs, bone marrow cells contain a nucleus. Erythrocytes differentiate from erythrotropietic bone marrow cells, a type of hemopoietic stem cell found in bone marrow. Erythrocytes are continuously produced in the red bone marrow of large bones at a rate of about 2 million cells per second in a healthy adult. \( \newcommand\)Įrythropoiesis is the process in which new erythrocytes are produced, which takes about seven days.
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