HAEMATOPOIESIS DR. AYESHA JUNAID MBBS,MCPS,FCPS. Professor of Pathology Consultant Haematology...
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Transcript of HAEMATOPOIESIS DR. AYESHA JUNAID MBBS,MCPS,FCPS. Professor of Pathology Consultant Haematology...
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HAEMATOPOIESIS
DR. AYESHA JUNAIDMBBS,MCPS,FCPS.Professor of PathologyConsultant HaematologyIncharge Blood Transfusion Services
SIH
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HAEMATOPOIESIS
OBJECTIVES Embryonal ,fetal,new born & adult
haematopoiesis
Seed & soil Stem cell Bonemarrow microenvironment
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AGE CHANGES
A: NEWBORNB: ADULT BONE MARROW
AB
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Bone Marrow
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BONE MARROW
Fig 1.1
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DEVELOPMENT OF HEMATOPOEITIC SYSTEM (EMBRYONIC PHASE)
Clusters of mesenchyme, mesodermal cells proliferate and expand (2 week)
Vascular channels develop and primitive embryonic circulatory system is formed.
Proliferation of early hematopoietic cells
Differentiation of hematopoietic precursors
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DEVELOPMENT OF HEMATOPOEITIC SYSTEM
2.FETAL HAEMATOPOIESIS 10TH week of gestation till the entire 2nd
trimester, liver and spleen are the major sites.
Proliferation of early hematopoietic cells Differentiation of hematopoietic
precursors Third trimester the sites shift to
medullary cavities of bones.
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DEVELOPMENT OF HEMATOPOEITIC SYSTEM
By birth, medullary cavities of almost every bone contributes to provide mature functional hematopoietic cells.
Pluripotential cells remain as rest cells in other organs of reticuloendothelial cell system.
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HEMATOPOIETIC STEM CELLS
is a cell that can divide, through mitosis and differentiate into specialized cell types and
that can self-renew to produce more stem cells
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HEMATOPOIETIC STEM CELLS
Differentiate into multiple cell lines.Proliferation is under influence of hematopoietic growth factors present in reticuloendothelial system.Morphologically they resemble large immature lymphocytescell membrane phenotyping with monoclonal antibodies has identified them by presence of surface markers.
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ERYTHROPOIESIS
In normal state, the balance of production and destruction is maintained at remarkably constant rate
Both endocrine and exocrine hormones make important contributions to this dynamic well balanced mechanism
The earliest recognizable erythroid precursor seen in the bone marrow is large basophilic staining cell,15-20 um
Contains a single large well defined, rounded nucleus,ribosomes, mitochondria and golgi apparatus
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ERYTHROPOIESIS As the early precursor cell
matures, its nucleus increases in size. As maturation goes on cell becomes smaller and more eosinophilic indicating hemoglobin.
During intermediate stages of maturation, cytoplasm becomes polychromatic indicating mixture of basophilic proteins and eosinophilic hemoglobin.
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ERYTHROPOIESIS
Further maturation, emoglobin synthesis continue and cytoplasm becomes entirely eosinophillic.
Late stages of maturation, hemoglobin is abundant.few mitochondria and ribosomes are present., nucleus is small dense and well circumscribed.
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ERYTHROKINETICS
Number is constant normally as their life span is 120 days approximately.
1-2 days of further maturation in systemic circulation and spleen reticulocytes loose membrane coated transferrin.
Differentiation and maturation from a basophillic erythroblast occurs in 5 to 7 days.
10-15% of erythroid precursors never mature and are destroyed.
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GRANULOPOIESIS
Committed myeloid stem cells differentiate into three types of cells, neutrophils, Basophils and eosinophils
FORMATION OF NEUTROPHILLS1. Myeloblast, an early precursor cell,
diameter 15-20um,lower nuclear cytoplasmic ratio, no cytoplasmic granules.
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GRANULOPOIESIS
2.Promyeloctes, is the next stage of maturation, similar in size and appearance to Myeloblast but has numerous azurophillic primary granules in cytoplasm, that contain variety of enzymes. (myeloperoxidase,acid phosphates, beta galactosidase, 5-nucleotidase)
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GRANULOPOIESIS
3.Myelocyte Secondary granules become apparent. Increased size and and smaller
primary granules. secondary granules have several
bactericidal enzymes nucleus become indented,
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GRANULOPOIESIS
4.Metamyelocytes: Next stage in myelopoiesis is a cell having more indented and smaller nucleus and having more granule
5.Mature neutrophils arise from stem cells in approx 10 days.
remain viable in systemic circulation for 8-12 hrs.
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THROMBOPOIESIS
Megakaryocytes differentiate from myeloid stem cell and are responsible for production of platelets.
THREE STAGES OF MATURATION OF MEGAKARYOCYTES
1. Basophilic stage, megakaryocyte is small, has diploid nucleus and abundant basophilic cytoplasm.
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THROMBOPOIESIS
2.Granular stage, here the nucleus is more polypoid, cytoplasm is more eosinophilic and granular
3.Mature stage, megakaryocyte is very large, with approx 16-32 nuclei, abundance of granular cytoplasm. It undergoes shedding to form platelets.
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LYMPHOPOIESIS
Lymphocytes are derived from committed stem cells that originate from pluripotent stem cell.
Early lymphoid cells further differentiates into B. & T.lymphocytes.
B-LYMPHOCYTES. As they mature in specialized organ in birds
called bursa of fabricus. They proliferate and mature into antibody forming cells.
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LYMPHOPOIESIS
Bone marrow or fetal liver may be the organs in humans for development of
B-lymphocytes from uncommitted lymphocytes.
Maturation culminates in migration of B.lymphocytes to other lymphoid organs and tissues throughout the body
(e.g. spleen, gut, liver , tonsils, lymph nodes)
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LYMPHOPOIESIS
5.Plasma cells Bone marrow, lymphoid organs, normally
found circulating in blood and lymph. little capacity to undergo mitosis. ultimate stage for synthesis and secretion of
antibodies or immunoglobulin. 6.Clones of plasma cells and B.cells can expand
and contract under influence of many regulating factors.
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LYMPHOPOIESIS
T.LYMPHOCYTES.
Depends on thymus for their maturation and specialized functions.
60-70% of circulating lymphos able to cycle from blood, through
lymphoid tissue and then back to blood via lymphatics.
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LYMPHOPOIESIS
T.LYMPHOCYTESSecrete cytokines(LYMPHOKINES). Regulate proliferation and differentiation
of other T.cells, B.cells,and macrophages.
Main component of cell mediated imunity.
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LYMPHOPOIESIS
3.Differentiation and maturation of uncommitted lymhocytes take place in thymus,these Thymocytes loose their antigenic surface molecules and finally mature into helper/ effector T lymphocytes and suppressor T lymphocytes.
4. The helper and suppressor cells can be differentiated by presence of specific cell membrane molecules and receptors
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HEMATOPOIETIC GROWTH FACTORS
They are heterogeneous group of cytokines that stimulate the progenitor cells and induce proliferation and maturation
They are glycoproteins synthesized by variety of cells in marrow.
They bind to specific receptors on the surface of various cells of the hematopoietic system
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Characteristic and properties
1. Naturally occurring hormones.2. Low molecular weight glycoprotiens.3. Variable degrees of species specificity.4. Available in purified form by
recombinant DNA technology.5. Responsible for stimulation and release
of other growth factors and cytokines.
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Hematopoietic Growth Factors
1.ERYHTROPOIETIN: Synthesized by peritubular cells of kidney in
response to hypoxemia Present in minute amounts in urine Liver secretes 10% of endogenous
erythropoietin. Responsible for low level erythroid activity. Half life of 6-9 hrs. in anemic patient
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Hematopoietic Growth Factors
Thrombopoietin is a glycoprotein hormone
produced mainly by liver and kidney that regulates the production of platelets in bone marrow.
It stimulates the production and differentiation of Megakaryocytes
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3.GM-CSF: Produced by fibroblasts, stromal cells,T.lymphocytes and
endothelial cells. Stimulate progenitors for granulocytes, monocytes and
erythrocytes4. G-CSF: LMW glycoprotein Stimulates proliferation and maturation of granulocyte
precursors. Produced by stromal cells, monocytes, macrophages,
and endothelial cells.
Hematopoietic Growth Factors
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5.M-CSF
Secreted by stromal cells, macrophages and fibroblasts.Heavily glycosylated glycoproteinPotent stimulator of macrophage function and activation as it increases the expression of MHC.II antigen on macrophages.
Hematopoietic Growth Factors