9 10 Hematopoiesis-Table 1

Question 1

what is hematopoiesis

Answer 1

how we make blood cells

Question 2

what are the cells that we must identify?

Answer 2

Granulocytes, platelets, and RBCs

Question 3

what are the two possibly daughter cells for a stem cell?

Answer 3

divide to make another stem cell, or to make a progenitor cell, and colony stimulating factors will probably lead to division and make non-stem cell daughters.

Question 4

what kind of factor will lead to differntiaton of blood cells

Answer 4

cytokinses and colony stimulating factors

Question 5

HSC

Answer 5

hematopoitic stem cell: makes all of the blood cells

Question 6

H-PSC

Answer 6

hematopoietic pluripotential Stem Cell: makes all the cells of blood (same as HSC)

Question 7

CFU-S

Answer 7

colocy forming unit-spleen (old term for HSC)

Question 8

GEMM,

Answer 8

common myeloid progenitor: gives rise to granulocytes, erythrocytes, monocytes and megakaryocytes

Question 9

lymphoid stem cell, common lymphoid progenitor:

Answer 9

gives rise to B and T lymphocutes

Question 10

BFU-E

Answer 10

burst forming Unit-erythrocyte give rise to CFU-E

Question 11

CFU-E

Answer 11

colony forming Unit Erythrocytes gives rise to the development of red blood cells.

Question 12

CSF

Answer 12

colony stimulating factor (cytokine)

Question 13

cytokines

Answer 13

diverse set of protein hormones, generally involved in immune system activities and hematopoiesis.

Question 14

A HSC recieves a signal from CSF, what are the possible progenitors?

Answer 14

A common lymphoid progenitor or a common myeloid progenitor (these are the multipoint progenitors.)

Question 15

Once the multipotnet progenitors (common lymphoid progenitor and common myeloid progenitor) are formed from the HSC recieving a CSF, what are the possible fates of the cells?

Answer 15

The Common lymphoid progenitor becomes Antibiodies B and T cells. Mean while The Common myeloid progenitor can become a CFU of multipotent progenitors of two types (either the GM series for neutrophils and monocytes, or the b/MG/E series for basophil, platelets, and erythrocytes) (or skip right to the committed precursors for ewosiniphil development!) the multipotent progenitors then become committed precursors of neutrophils, monocytes, eosinophils, basophil, platelets, or erythrocytes; which become blast cells for these different types of cells, and then form the cells.

Question 16

CFU-S

Answer 16

these can lead to a differentiation of blood cells in little colonies of blood cell produciton in the spleen (as seen in mouse models), leading to the issolation of hemopoetic stem cells

Question 17

describe the visual manifestation of blood cell genisis

Answer 17

blood production comes in little colonies of progenitor cells giving rise to committed cells that give rise to the blasts and the cells themselves. These will then be in segmented areas of the bone marrow.

Question 18

where are blood cells made?

Answer 18

all the mature blood cells, except the Tlymphocutes are made in bone marrow

Question 19

why is it difficult to locate the HSC in under the microscope?

Answer 19

stem cells look like lymphocytes

Question 20

why is it difficult to tell where the specific colonies of cell types are based on the immature cells?

Answer 20

eirliest commited cells are called blast cells and all look the same

Question 21

How can we read a bone marrow smear under the microscope

Answer 21

look for things taht can be identified and then work out from their to find things, since most of the non-differentiated cells look the same.

Question 22

what are the most distinctive cells when looking at a bone marrow smear

Answer 22

RBC and Granulocytes; and megakaryocytesf and plasma cells.

Question 23

what are the huge cells in the marrow?

Answer 23

megakaryocytes

Question 24

what is the tri lineage of hematopoiesis?

Answer 24

RBCs, granulocytes, platelets; these are the normal and easily identified cells in the marrow.

Question 25

what happens to the cell as we develop blood cells?

Answer 25

the cells get smaller and the nucleus gets smaller faster than that.

Question 26

what happens to the nucleus

Answer 26

the nucleoli will disappear; the chromatin gets clumpy, heterochromatin up; and euchromatin down; shape changes, (this is a good indication of the lineage and the stage.)

Question 27

what happens to the cytoplasm of a cell as we progress to blood cells

Answer 27

the non-specific contents, RNA, decrease; Specific contents: Hb or granules, increase, and in general basophilic staining decreases.

Question 28

Describe the Erythrocyte developmental series

Answer 28

A BFU-E (the committed precursor) is stimulated by EPO and forms the CFU-E which gives rise to Pro-erythroblasts outside of the bone marrow. These develop into basophilic erythroblasts, and then polychromatophilic erythroblast. Then the cells produce orthochromatophilic erythroblasts that stop dividing, and expel the nucleus and give rise to reticulocytes and finally these mature to RBC!

Question 29

which cells in the erythrocyte developlmental series are mitotic?

Answer 29

the BFU-E (and all previous cell types), CFU-E; and outside the marrow, the proerythroblasts, basophilic erythroblasts, and the polychmotophilic erythroblasts are all mitotic. after that they aren’t

Question 30

how can you tell the difference between reticulocytes and RBC?

Answer 30

the reticulocytes are a little bigger

Question 31

what cells of the erythrocyte developmental series are normal seen in the blood?

Answer 31

the retiuclocytes and the RBCs

Question 32

what are the names of the cells derived from the CFU-E before they become maure RBCs (three names)

Answer 32

normoblasts, erythroblasts, rubroblasts

Question 33

how long does it take to develop from the CFU, through the ‘blast’ cells to a RBC?

Answer 33

about 7-10 days to maturation of cells development

Question 34

how common are reticulocytes, and what is their lifetime?

Answer 34

reticulocytes are normally about 1% of RBCs, last about 1 day in the blood and then mature into RBCs

Question 35

what is the life span of a RBC?

Answer 35

RBCs last about 120 days before being removed.

Question 36

what is erythropoietin?

Answer 36

(EPO) this stimulates the production of red blood cells by acting on the colony of red blood cells.

Question 37

what do proerythroblasts have/ look like

Answer 37

they are larger, have a large nucleus, bluish cytoplasm, and have nucleoi,

Question 38

How do you identify basophilic erythroblasts?

Answer 38

they are large, whith a bluish cytoplasm, densee nuceious and no proerythroblasts. generaly a darker staining (as the name would imply)

Question 39

how to identify polychromatophilic erythroblasts?

Answer 39

they have a smaller nucleus a larger more purple cytoplam, a compacted poly-chromotin.

Question 40

how to identify orthochromatophilic erythroblasts?

Answer 40

they have a small very darkly stained nucleus, and a large light colored cytoplasm,.

Question 41

how to identify reticulocytes?

Answer 41

they are a little larger than RBC, and they have no nucleus.

Question 42

how can you unequivocally identify a reticulocyte?

Answer 42

by using a basic dye like methylene blue which will precipate RNA and ribosomes. These are still present in reticulocytes, but not present in mature RBCs.

Question 43

what if you looked at a patient that had a lot of blood loss two weeks after the loss? what whould be different in the blood?

Answer 43

lots of reticulocytes.

Question 44

describe granulocyte developmental series

Answer 44

start with CFU-GM, transition out of the marrow and make myelooblast with a very round, large nucleus with distinct nucleolus; then make a promyelocyte (with an oval nucleus, very big cells, and dark granules and a nuclear hoff (light spot). the promyelocyte can then become a myelocyte in the form of either a Basophil, Eosinophil, or neutrophil. these then transition in to the non-metotic forms and become metamyelocytes, band form, and finally the mature basophils, eosinophils, or PMNs.

Question 45

how long does the granulocyte developmental series take?

Answer 45

7-11 days.

Question 46

what distinguishes the meta-myelocyte to band form stage of the development of granulocytes?

Answer 46

the development of a cleft in the nucleus that then becomes a thin ‘C’ shaped nucleus.

Question 47

what is a left shift in the blood?

Answer 47

this is an increase in the presence of band form of the cells, that is the immature forms of the cell are much more prevelent.

Question 48

what is endomitosis

Answer 48

DNA replicadtion without nuclear division

Question 49

how are platelets formed?

Answer 49

from megakaryocytes, that send out little processes into the vessels and pinch off little platelets.

Question 50

how do we get rapid activation of PMN

Answer 50

have a marginated pool of cells stuck on the walls of vessels

Question 51

what happens if you get no folate or B12

Answer 51

you have continues production of proteins but reduced production of DNA, the cells get bigger and don’t divide, and in the case of red cells they can become abnormal and you get anemic becasue you don’t produce enough over all

Question 52

what happens to PMNs under B12 or folate problems

Answer 52

they become hypersegmented! so if you have anemea and hypersegmented nucleus in PMN then B12/folate difficient

Question 53

what is caused by a lack of DNA production due to lack of folate/B12?

Answer 53

Macrocytic Anemia

Question 54

what is red vs. yellow bone marrow?

Answer 54

red is active and yellow is inactive and fatty.

Question 55

where is a common site of Red marrow

Answer 55

the pelvis

Question 56

what is the hematopoietic tissue between sinuses in marrow?

Answer 56

cords

Question 57

what are the large irregularly shaped low density areas in marrow?

Answer 57

the sinus, which are venous sinuses or sinusoids.

Question 58

what forms the meshwork to support cords in the marrow (they become fatty in yellow marrow).

Answer 58

Adventitial reticular cells

Question 59

what is the general organization of marrow

Answer 59

sinus surrounded by adventitial reticular cells supporting cords that are grouped by lineage. The red blood cells tend to be near sinuses.