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STEM CELLS MARKERS

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Title: STEM CELLS MARKERS


1
STEM CELLS MARKERS
  • By
  • Salwa Hassan Teama
  • M.D. Clinical Pathology Oncolgic laboratory
    Medicine (N.C.I)
  • Fellow Ain Shams University

2
STEM CELLS
  • A stem cell is a cell that has the ability to
    divide (self replicate) for indefinite
    periodsoften throughout the life of the
    organism. Under the right conditions, or given
    the right signals, stem cells can give rise
    (differentiate) to the many different cell types
    that make up the organism. That is, stem cells
    have the potential to develop into mature cells
    that have characteristic shapes and specialized
    functions, such as heart cells, skin cells, or
    nerve cells.

3
STEM CELLS
  • Stem cells that have unique capabilities to
    self-renew, grow indefinitely, and differentiate
    or develop into multiple types of cells and
    tissues. Researchers now know that many different
    types of stem cells exist but they all are found
    in very small populations in the human body, in
    some cases 1 stem cell in 100,000 cells in
    circulating blood.

4
STEM CELLS
  • Pluripotent to describe stem cells that can
    give rise to cells derived from all three
    embryonic germ layersmesoderm, endoderm, and
    ectoderm. These three germ layers are the
    embryonic source of all cells of the body. All of
    the many different kinds of specialized cells
    that make up the body are derived from one of
    these germ layers.

5
STEM CELLS
  • The embryonic stem cell is defined by its
    originthat is from one of the earliest stages of
    the development of the embryo, called the
    blastocyst. Specifically, embryonic stem cells
    are derived from the inner cell mass of the
    blastocyst at a stage before it would implant in
    the uterine wall. The embryonic stem cell can
    self-replicate and is pluripotentit can give
    rise to cells derived from all three germ layers.

6
  • The adult stem cell is an undifferentiated
    (unspecialized) cell that is found in a
    differentiated (specialized) tissue it can renew
    itself and become specialized to yield all of the
    specialized cell types of the tissue from which
    it originated. Adult stem cells are capable of
    self-renewal for the lifetime of the organism.
    Sources of adult stem cells have been found in
    the bone marrow, blood stream, cornea and retina
    of the eye, the dental pulp of the tooth, liver,
    skin, gastrointestinal tract, and pancreas.

7
STEM CELLS
  • Unipotent stem cell, a term that is usually
    applied to a cell in adult organisms, the cells
    in question are capable of differentiating along
    only one lineage. Also, it may be that the adult
    stem cells in many differentiated, undamaged
    tissues are typically unipotent and give rise to
    just one cell type under normal conditions. This
    process would allow for a steady state of
    self-renewal for the tissue.

8
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9
STEM CELLS
  • However, if the tissue becomes damaged and the
    replacement of multiple cell types is required,
    pluripotent stem cells may become activated to
    repair the damage.

10
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11
STEM CELLS MARKERS
  • Coating the surface of every cell in the body
    are specialized proteins, called receptors, that
    have the capability of selectively binding or
    adhering to other "signaling" molecules.

12
STEM CELLS MARKERS
  • There are many different types of receptors
    that differ in their structure and affinity for
    the signaling molecules. Normally, cells use
    these receptors and the molecules that bind to
    them as a way of communicating with other cells
    and to carry out their proper functions in the
    body. These same cell surface receptors are the
    stem cell markers.

13
STEM CELLS MARKERS
  • Each cell type, for example a liver cell, has a
    certain combination of receptors on their surface
    that makes them distinguishable from other kinds
    of cells.

14
STEM CELLS MARKERS
  • The signaling molecules that selectively adhere
    to the receptors on the surface of the cell as a
    tool that allows them to identify stem cells.
    Many years ago, a technique was developed to
    attach to the signaling molecule another molecule
    (or the tag) that has the ability to fluoresce or
    emit light energy when activated by an energy
    source such as an ultraviolet light or laser
    beam.

15
  • Fluorescent
  • tags with
  • emitted light
  • that differ
  • in color and
  • intensity.

16
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17
STEM CELLS MARKERS
  • Genetic and molecular biology techniques are
    extensively used to study how cells become
    specialized in the organism's development. Genes
    and transcription factors (proteins found within
    cells that regulate a gene's activity) that are
    unique in stem cells.
  • Polymerase chain reaction (PCR) to detect the
    presence of genes that are "active" and play a
    role guiding the specialization of a cell. This
    technique has is helpful to identify "genetic
    markers" that are characteristic of stem cells.

18
STEM CELLS MARKERS
  • For example, a gene marker called PDX-1 is
    specific for a transcription factor protein that
    initiates activation of the insulin gene, this
    marker to identify cells that are able to develop
    islet cells in the pancreas.

19
STEM CELLS MARKERS
  • Recently, Genetic engineering approach that
    uses fluorescence, but isn't dependent on cell
    surface markers. The importance of this new
    technique is that it allows the tracking of stem
    cells as they differentiate or become
    specialized. A stem cell a "reporter gene" called
    green fluorescent protein or GFP. The gene is
    only activated or "reports" when cells are
    undifferentiated and is turned off once they
    become specialized. Once activated, the gene
    directs the stem cells to produce a protein that
    fluoresces in a brilliant green color Researchers
    are now coupling this reporting method with the
    FACS and microscopic methods to sort cells,
    identify them in tissues, and now, track them as
    they differentiate or become specialized.

20
(Figure E.i.3. Microscopic Image of
Fluorescent-Labeled Stem Cell).
21
STEM CELLS MARKERS
  • For example, a special type of hematopoietic
    stem cell from blood and bone marrow called "side
    population" or "SP" is described as (CD34-/low,
    c-Kit, Sca-1).

22
References
  • Bonner, W.A., Hulett, H.R., Sweet, R.G., and
    Herzenberg, L.A. (1972). Fluorescence activated
    cell sorting. Rev. Sci. Instrum. 43, 404409.
  • Eiges, R., Schuldiner, M., Drukker, M., Yanuka,
    O., Itskovitz-Eldor, J., and Benvenisty, N.
    (2001). Establishment of human embryonic sten
    cell-transduced clones carrying a marker of
    undifferentiated cells. Curr. Biol. 11, 514518.
  • Herzenberg, L.A. and De Rosa, S.C. (2000).
    Monoclonal antibodies and the FACS complementary
    tools for immunobiology and medicine. Immunol.
    Today. 21, 383390.
  • Jackson, K., Majka SM, Wang H, Pocius J, Hartley
    CJ, Majesky MW, Entman ML, Michael LH, Hirschi
    KK, and Goodell MA (2001). Regeneration of
    ischemic cardiac muscle and vascular endothelium
    by adult stem cells. J. Clin. Invest. 107, 18.
  • Julius, M.H., Masuda, T., and Herzenberg, L.A.
    (1972). Demonstration that antigen-binding cells
    are precursors of antibody-producing cells after
    purification with a fluorescence-activated cell
    sorter. Proc. Natl. Acad. Sci. U. S. A. 69,
    19341938.
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