lecture 13

Question 1

What are characteristics of stem cells

Answer 1

proliferate well

self renewing

Reconsisute tissue after injury

Question 2

What does totipotent mean?

Answer 2

Cell give rise to all cells in organism

ex: Zygote

Question 3

What is pluripotent?

Answer 3

“Embroyonic Steam cell”

Gives rise to all cells of the embroyo and subsequently and adult tissue

Question 4

What is multipotent?

Answer 4

Gives rise to different cell types of a given lineage and stem cells

Question 5

When are hemopoitetic sites?

Answer 5

• 2wks-8wks of gestation
  
  • islands of hematopoiesis (blood islands) are found in yolk sac wall
  • First occurance of blood cells
  • no leukocytes
• 8wks to 28wks of gestation
  
  • hematopoesis on liver then spleen
  • normally ceases around time of birth
• 6 months gestation and beyond
  
  • hematopoesis at read bone marrow

Question 6

what are characteristics of bone marrow?

Answer 6

• Red marrow is the source of all blood cells
  
  • (at birth all marrow is red marrow)
• Prior to puberty found in
  
  • skull, ribs,, sternum, clavicles, pelvis, long bones
• After puberty
  
  • All of the above except long bones

Question 7

What extramedullary hemaotpoesis?

Answer 7

blood formation in spleen and liver during certain diease states

Question 8

What is the stroma ?

Answer 8

• Bone marrow histology
• contains fbroblasts, retictular cells, adipose cells, and endothelial cells
• synthesiss and secreation of hemopoeitic growth factor

Question 9

What is parenchyma?

Answer 9

consists of various lineges of hematopoetic cells in different stages of differentation

Question 10

What are sinusoids?

Answer 10

Bone marrow histology

Endothelial lined spaces that connect arterial and venous vessels

provides acess for mature blood cells to move into circulation

Question 11

what are hematopoietic chords

Answer 11

Bands of parenchyma and stroma lying between sinusoids

Question 12

know thsi slide

Answer 12

Question 13

How do RBCs and Megakaryocytes relate to trans endothelial migration?

Answer 13

Mature RBC migrate through hemapotetic cords through sinusodial endothelial walls into the sinusoids

Megakaryocytes (site of platelet production) is too large to translocate and remains in the stroma

Question 14

memorize and known this slide in and out

Question 15

What is a hematopotetic cells?

Answer 15

pluripotent

self renews

produce two kinds of multopotent precursors cells

myeloid stem. -> all blood lines EXCEPT lympocytes

lymphoid stem cell - gives rise to lymphocytes

Question 16

What does a myeloid stem cell form?

Answer 16

1. erythoid CFU
   
   1. myeloid stem cell -> RBC
2. Megakaryocyte CFU
   
   1. myeloid stem cell -> platelet precursors
3. Basophil CFU *
4. Eosinophil CFU *
5. Granulocytes CFU *

* = white blood cell

CFU = colony forming units

Question 17

What does a lymphoid cell form?

Answer 17

T cell progenitor

B cell progenitor

Question 19

Answer 19

Question 20

Answer 20

Question 21

Answer 21

Question 22

what is the series for granulocyte CFU?

Answer 22

monoblast*

Promonocytes

Monocyte**

macrophage

** = cells normally found in circulation

* = cells which can divide

Question 23

What is the series for a macrophage CFU?

Answer 23

1. Myeloblast *
2. Promyelocyte *
3. MyeloCyte *
4. Metamyelocyte
5. Band Cell **
6. Neutrophil **

* = cells which can divide

** = normally found in circulation

Question 24

what is the series for Eosinophil CFU?

Answer 24

1. Myeleoblast*
2. Promyelocyte*
3. Myelocyte*
4. Metamyelocyte
5. Band Cell**
6. Eosinophil or basophil becomes mast cell

* Cells which can divide

** Cells normally found in the circulation

Question 25

What is the series for megakaryocyte CFU?

Answer 25

1. Megakaryoblast
2. Mega karyocyte
3. Platelets**

* Cells which can divide

** Cells normally found in the circulation

Question 26

what is the series for Erythroid CFU?

Answer 26

Proerythrobast*

basophillic erythoblast*

polychromatophillic erythroblast

orthochromatic erythroblast

Reticulocyte**

Erythrocyte**

Question 27

What are the three major hemipoietic growth factors?

Answer 27

Colony –stimulating factors •

Erythropoietin and thrombopoietin •

Cytokines (primarily interleukins)

Question 28

Where are hemopoetic growth factors and cytokines produced?

Answer 28

endothelial cells in marrow, fibroblasts, and stromal cells

Question 29

What are colony stimulating growth factors?

Answer 29

granulocyte/monocyte colony stimulating factor (GM CSF)

• Produced by endothelial cells, T cells, fibroblasts, and monocytes
• Stimulates granulocytopoiesis and monocytopoiesis
• Ameliorates neutropenia (synthetic form: sargramostim or melgramostim).

Granulocyte colony stimulating factor (G-CSF):

• Produced by endothelial cells, fibroblasts, and macrophages
• Directs CFU-G to proliferate and differentiate into myeloblasts
• USed after chemotherapy or radiation therapy to treat neutropenia

Monocyte colony stimulating factor:

• Commits CFU-GM to monocytic pathway

Question 30

What are erythopoeitin and thrombopotein hematopoietic growthf actors?

Answer 30

Erythropoietin:

• Directs CFU-E to proliferate and differentiate into proerythroblasts
• Produced in kidney in response to decrease in oxygen saturation
• Secondary polycythemia is any abnormal increase in total RBC mass resulting from hypoxia and stimulating release of erythropoietin.
• Possible causes include Tetralogy of Fallot and cigarette smoke.

Thrombopoietin:

• Directs formation of megakaryoblasts
• Produced in proximal convoluted tubules of kidney
• Produced in parenchymal cells and sinusoidal endothelial cells of liver
• No therapeutic use

Question 31

What are Cytokines ?

Answer 31

• Mediate positive and negative effects on cellular quiescence, apoptosis, proliferation, and differentiation.
• Engage specific receptors and activate a variety of signaling pathways.
• Examples:

1. Interleukin-3
2. GM-CSF
3. Fit-3 ligand
4. Kit ligand

Question 32

What are other hemopoeitc growth factors?

Answer 32

ECM components:

• Heparin sulfates
• Collagens
• Laminin
• Fibronectin

Chemokines:

• Regulate blood cell trafficking and homing to sites of need.
• May serve as positive and negative growth regulators. Bind to guanine protein-coupled transmembrane receptors.
• Example: Sdf-1