Red Blood Cells Production- Erythropoiesis.ppt
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Jul 01, 2023
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the RBC production and maturation completed in the bone marrow normally, all the maturation stages of erythropoiesis are descriped here and how regulated ..etc
Slide Content
Red Blood Cells Production
Hematopoiesis
Developed by Dr.
Abdulrazzak Othman Alagbare -Clinical Pathologist
Hematology Lecturer
Hematopoiesis
Developed by Dr.
Abdulrazzak Othman Alagbare -Clinical Pathologist
Hematology Lecturer
Erythropoiesis
Definition: it is a process of erythrocytes production.
Erythropoiesis produces 2.5 million RBCs/second from stem cells
(hemocytoblasts) in bone marrow
Production site:
1-RBC Formation before birth
A.Mesoblasticstage Nucleated RBCs
B.Hepatic stage all blood cells
C.Myeloid stage all blood cells
Site Cells production
Definition: it is a process of erythrocytes production.
Erythropoiesis produces 2.5 million RBCs/second from stem cells
(hemocytoblasts) in bone marrow
Production site:
1-RBC Formation before birth
A.Mesoblasticstage Nucleated RBCs
B.Hepatic stage all blood cells
C.Myeloid stage all blood cells
Site Cells production
RBC Formation after birth
1.From the birth up to 5years old
All the bones produce blood cells
(long bones and sternum)
2.After the 5
th
years only in
Vertebrae, Sternum, Ribs, and
Ilium.
1.From the birth up to 5years old
All the bones produce blood cells
(long bones and sternum)
2.After the 5
th
years only in
Vertebrae, Sternum, Ribs, and
Ilium.
Synthesis requirements for RBC production needs
Iron
Protein
Vitamin B
12and B
6 Folic acid and Vitamin
C and E
copper (for cofactors for enzymes
synthesizing RBCs)
Erythropoietin hormone (EPO)
Iron
Protein
Vitamin B
12and B
6 Folic acid and Vitamin
C and E
copper (for cofactors for enzymes
synthesizing RBCs)
Erythropoietin hormone (EPO)
Erythropoietin hormone (EPO)
Nature: Glycoprotein Human
erythropoietin is a 193-amino acid
glycoprotein.
The responsible gene located on the
chromosome 7
Sources : 90% from the kidneys and 10%
from the liver
Activity: stimulateand regulatethe bone
Nature: Glycoprotein Human
erythropoietin is a 193-amino acid
glycoprotein.
The responsible gene located on the
chromosome 7
Sources : 90% from the kidneys and 10%
from the liver
Activity: stimulateand regulatethe bone
Regulation of erythropoiesis
The erythrocytes production regulated by
1-Erythropoietin hormone (EPO)
2-Level of oxygenin the tissues
Stimuli for erythropoiesis
Low levels of O2
Increase in exercise
Hemorrhaging
increase production of
erythrocytes
The erythrocytes production regulated by
1-Erythropoietin hormone (EPO)
2-Level of oxygenin the tissues
Stimuli for erythropoiesis
Low levels of O2
Increase in exercise
Hemorrhaging
increase production of
erythrocytes
Erythrocytes Maturation steps are
Erythrocytes consist 10-30% of all
hematopooieticcells in the bone marrow
Production Site:only in the bone
marrow
Target:synthesis of
1.Hemoglobin (Hb)
2.Enzymes such as
Glucose 6 dehydrogenase
phosphate (G6PD)
and pyruvatekinase(PK)
Period:about 8-10 days
Erythrocytes consist 10-30% of all
hematopooieticcells in the bone marrow
Production Site:only in the bone
marrow
Target:synthesis of
1.Hemoglobin (Hb)
2.Enzymes such as
Glucose 6 dehydrogenase
phosphate (G6PD)
and pyruvatekinase(PK)
Period:about 8-10 days
Erythrocytes Maturation
sequence of the formation
of red blood cells
(Erythropoiesis)
•Pronormoblast
•Early normoblast
•Intermediate normoblast
•late normoblast
•Reticulocytemature
Erythrocyte
sequence of the formation
of red blood cells
(Erythropoiesis)
•Pronormoblast
•Early normoblast
•Intermediate normoblast
•late normoblast
•Reticulocytemature
Erythrocyte
(1) Pronormoblast:-
•No hemoglobin
•Nucleus 12 um
•Contain nucleoli
(2) Early -normoblast:-
Nucleoli disappear
Hemoglobin starts
appearing –Little Hb
•No hemoglobin
•Nucleus 12 um
•Contain nucleoli
(2) Early -normoblast:-
Nucleoli disappear
Hemoglobin starts
appearing –Little Hb
(3) Intermediate -
normoblast:-
Cytoplasm deep blue
Increase in RNA
Increase Hemoglobin
synthesis
(4) Late -normoblast:-
Nucleus smaller-
pyknosis
And Nuclear
extrusion
normoblast:-
Cytoplasm deep blue
Increase in RNA
Increase Hemoglobin
synthesis
(4) Late -normoblast:-
Nucleus smaller-
pyknosis
And Nuclear
extrusion
(5) Reticulocyte:-
Remnant of RNA Synthesizing
proteins and Hbcontinue 34%
Consist about 1 % of Red Cells
Remnant of RNA Synthesizing
proteins and Hbcontinue 34%
Consist about 1 % of Red Cells
5-Reticulocytes:
Reticulocytes
contain
ribonucleic acid
(RNA) for 4
days;
normally, the
first 3 days are
spent in the
marrow and
fourth in the
blood.
Reticulocytes
contain
ribonucleic acid
(RNA) for 4
days;
normally, the
first 3 days are
spent in the
marrow and
fourth in the
blood.
(6) Erythrocytes:-
Round, biconcave,
disc shaped.
Diameter 7.8 um.
Can deform easily.
Transfer of RBC to Circulation
RBC transfers into the peripheral blood by (Diapedesis)
Diapedesis: Process by which Erythrocytes come out of
blood vessel wall
a)Pores of vessel wall are smaller than cells
b)Small portion of the cell squeezes through the pores
Round, biconcave,
disc shaped.
Diameter 7.8 um.
Can deform easily.
Transfer of RBC to Circulation
RBC transfers into the peripheral blood by (Diapedesis)
Diapedesis: Process by which Erythrocytes come out of
blood vessel wall
a)Pores of vessel wall are smaller than cells
b)Small portion of the cell squeezes through the pores
Maturation affect on the
Erythrocytes production
1-synthesis of
hemoglobin
2-Synthesis of the
main enzymes (G6PD
and PK)
3-Loss of the nucleus
in the late normoblast
step
Erythrocytes production
1-synthesis of
hemoglobin
2-Synthesis of the
main enzymes (G6PD
and PK)
3-Loss of the nucleus
in the late normoblast
step
RBC properties in the peripheral
blood
1.Non nucleated
2.Flexible biconcave disc
3.lives 100-120 days in the
circulation.
4.Function transport of 0
2to the
tissue and remove the CO
2
5.Aged red cells removed by
the spleen
blood
1.Non nucleated
2.Flexible biconcave disc
3.lives 100-120 days in the
circulation.
4.Function transport of 0
2to the
tissue and remove the CO
2
5.Aged red cells removed by
the spleen
END OF THE LESSON
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