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Telomeres and Aging: Is there a connection?

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Title: Telomeres and Aging: Is there a connection?


1
Telomeres and AgingIs there a connection?
2
What are telomeres?
  • Telomeres are
  • Repetitive DNA sequences at the ends of all human
    chromosomes
  • They contain thousands of repeats of the
    six-nucleotide sequence, TTAGGG
  • In humans there are 46 chromosomes and thus 92
    telomeres (one at each end)

3
What do telomeres do?
  • They protect the chromosomes.
  • They separate one chromosome from another in the
    DNA sequence
  • Without telomeres, the ends of the chromosomes
    would be "repaired", leading to chromosome fusion
    and massive genomic instability.

4
Telomere function, cont.
  • Telomeres are also thought to be the "clock" that
    regulates how many times an individual cell can
    divide. Telomeric sequences shorten each time the
    DNA replicates.

5
Think of it like this.
  • Telomeres effectively "cap" the end of a
    chromosome in a manner similar to the way the
    plastic on the ends of our shoelaces "caps" and
    protects the shoelaces from unraveling. (Geron
    corporation)

6
How are telomeres linked to aging?
  • Once the telomere shrinks to a certain level, the
    cell can no longer divide. Its metabolism slows
    down, it ages, and dies.

7
Telomeres Aging
  • Healthy human cells are mortal because they can
    divide only a finite number of times, growing
    older each time they divide. Thus cells in an
    elderly person are much older than cells in an
    infant.

8
Telomeres Aging
  • It has been proposed that telomere shortening may
    be a molecular clock mechanism that counts the
    number of times a cell has divided and when
    telomeres are short, cellular senescence (growth
    arrest) occurs.

9
Telomeres Aging
  • It is believed that shortened telomeres in
    mitotic (dividing) cells may be responsible for
    some of the changes we associate with normal
    aging.

10
Think of it like this
  • Geron Corporation likens the telomere and aging
    condition to this
  • For the cell, having a long telomere can be
    compared to having a full tank of gas in your
    automobile having a short telomere is like
    running on empty. Each time a cell divides, its
    telomeres become a little shorter until the cells
    simply can no longer divide (e.g., it runs out of
    fuel).

11
Telomeres Aging
  • After a certain number of cell divisions, the
    telomeres would be so short as to somehow prevent
    the cell from further proliferation--putting it
    in a state called senescence. In other words, he
    proposed that telomere length offered a clock for
    telling a cell's longevity. - Scientific
    American

12
What next?
  • So, scientists have determined that there is a
    direct connection between telomere length and
    aging. What was their next step?

13
What Next?
  • Dr. Jerry Shay and his colleagues (The University
    of Texas Southwestern Medical Center at Dallas )
    found that cellular aging can be bypassed or put
    on hold by the introduction of the catalytic
    component of telomerase (i.e., the fuel added to
    the gas tank to keep the car running)!

14
What is telomerase, anyway?
  • Telomerase (TEE-LÓM-ER-ACE) is a
    ribonucleoprotein enzyme complex (a cellular
    reverse transcriptase) that has been referred to
    as a cellular immortalizing enzyme.
  • It stabilizes telomere length by adding hexameric
    (TTAGGG) repeats onto the telomeric ends of the
    chromosomes, thus compensating for the erosion of
    telomeres that occurs in its absence.

15
So how does this all link together?
  • In the laboratory, cells in tissue culture with
    introduced telomerase have extended the length of
    their telomeres. They have already divided for
    250 generations past the time they normally would
    stop dividing, and are continuing to divide
    normally, giving rise to normal cells with the
    normal number of chromosomes.

16
How Does Telomerase Work?
  • Telomerase works by adding back telomeric DNA to
    the ends of chromosomes, thus compensating for
    the loss of telomeres that normally occurs as
    cells divide.
  • Most normal cells do not have this enzyme and
    thus they lose telomeres with each division.

17
How Does Telomerase Work?
  • In humans, telomerase is active in germ cells, in
    vitro immortalized cells, the vast majority of
    cancer cells and, possibly, in some stem cells.
  • High telomerase activity exists in germ cells,
    stem cells, epidermal skin cells, follicular hair
    cells, and cancer cells.

18
How Does Telomerase Work?
  • Research also shows that the counter that
    controls the wasting away of the telomere can be
    "turned on" and "turned off". The control button
    appears to be an enzyme called telomerase which
    can rejuvenate the telomere and allow the cell to
    divide endlessly. Most cells of the body contain
    telomerase but it is in the "off" position so
    that the cell is mortal and eventually dies.

19
How Does Telomerase Work?
  • Some cells are immortal because their telomerase
    is switched on
  • Examples of immortal cells blood cells and
    cancer cells
  • Cancer cells do not age because they produce
    telomerase, which keeps the telomere intact.

20
Visual Example
  • The next slide shows cells stained to visualize
    the presence of telomerase.
  • The bottom dish was treated to produce active
    telomerase and is still dividing
  • The top dish of normal cells of the same age has
    stopped dividing

21
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22
Telomerase and Cancer
  • There is experimental evidence from hundreds of
    independent laboratories that telomerase activity
    is present in almost all human tumors but not in
    tissues adjacent to the tumors.

23
Telomerase and Cancer
  • Thus, clinical telomerase research is currently
    focused on the development of methods for the
    accurate diagnosis of cancer and on novel
    anti-telomerase cancer therapeutics

24
Experimentation
  • Many experiments have shown that there is a
    direct relationship between telomeres and aging,
    and that telomerase has the ability to prolong
    life and cell division.

25
Genetic Link
  • The telomerase control gene has been mapped to
    3p21 (chromosome 3, the p (short) arm, locus 21)
  • Although the gene for telomerase is present in
    all cells, hTRT is present only in immortal
    cells, where it serves to fuse the repeating
    sequences of DNA to the chromosomes, thereby
    lengthening the telomeres.

26
Genetic Link
  • Proof that introduction of the hTRT gene into
    mortal cells would cause them to produce active
    telomerase was offered in the December 1, 1997,
    issue of Nature Genetics by Genron researchers

27
This info brought to you by
  • Elizabeth Jordan

28
Sources (1 of 4)
  • Reveal P J, Henkels K M, and Truchi J J. 1997
    "Synthesis of the Mammalian Telomere Lagging
    Strand in Vitro." Journal Of BioChemistry Vol.
    272No. 18 pp11678-11681
  • Scientific American Turning Back the Strands of
    Time

29
Sources (2 of 4)
  • McElligott R, and Wellinger R J. 1997 "The
    Terminal DNA Structure of Mammalian Chromosomes."
    EMBO Journal Vol. 16no. 12 pp 3705-3714.
    (www.emboj.org/)
  • Mapping and Cloning of a Human Telomerase
    Repressor Gene on Chromosome 3" CS Cooper et.
    all

30
Sources (3 of 4)
  • Geron Symposium No. 3 Telomerase and Telomere
    Dynamics in Cancer and Aging (www.geron.com/)
  • Mouse model demonstrates role of telomeres and
    telomerase in aging, cancer and lifespan
    (http//www.arclab.org/ March 4, 1999 )

31
Sources (4 of 4)
  • Shay/Wright Laboratory The University of Texas
    Southwestern Medical Center at Dallas.
    (www.swmed.edu/)
  • Aging and Cancer Are Telomeres and Telomerase
    the Connection? (http//www.accessexcellence.org/
    LC/ST/st10bg.html)
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