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Aging and immune system
Aging and immune system
Eman yousssif
The content
Aging changes in immunity
Effects of aging on immune system development
Aging changes in immunity
As you grow older, your immune system changes and does not work as well:
It is slower to respond. This increases risk of getting sick. Flu shots or other
vaccines may not work as well or protect you for as long as expected.
An autoimmune disorder may develop. This is a disease in which the immune
system mistakenly attacks and destroys healthy body tissues.
Healing is also slowed in older persons. There are fewer immune cells in the body
to bring about healing.
The immune system's ability to detect and correct cell defects also declines. This
can result in an increase in the risk of cancer.
Aging is known to affect immune
function, a phenomenon known as
immune senescence, but how this
happens is not clear
All cells generate chemicals called free radicals as a
normal part of metabolism. These highly reactive,
unstable molecules can readily damage proteins, lipids
and other cellular components through oxidation (the
reaction between oxygen and substances it comes in
contact with). Cells keep "oxidative stress" in check by
producing several enzymes that are scavengers of free
radicals. But in aging, increased production of free
radicals coupled with cells' decreased production of
antioxidant enzymes cause a buildup of damaged
proteins and other molecules that can be toxic to cells.
The current study is the first to examine
whether age-related oxidative stress
compromises the function of a type of
immune cell called dendritic cells.
"Dendritic cells are known as the 'sentinels
of the immune system' and alert the rest of
the immune system to the presence of
microbial invaders,
isolated dendritic cells from aging mice
and found that oxidation-damaged
proteins had accumulated in those
cells and had caused harmful effects.
For example, oxidatively modified
proteins hampered the function of
endosomes, the cell's organelle where
pathogens are inactivated.
aging may compromise the ability
of the immune system to fight
infections and respond to vaccines.
The study, conducted in aging
mice, shows that administering
antioxidants may help reverse this
loss of immune function
Effects of aging on immune system
development
→HSCs exhibit multiple age-related changes
that include impaired adherence to stromal cells
and, in some strains of mice and humans.
From an immunologic perspective, the most profound effect of
stem cell aging in both mice and humans is a decreased capacity
to produce lymphocytes and an increase in myeloid potential.
This shift has been correlated with increased expression of
myeloid lineage genes and down regulation of those specifying a
lymphoid lineage fate .
it is now appreciated that the number of
lymphoid-biased stem cells declines with age
concomitant with an increase in myeloid-biased
HSCs .The age-related increase in expression of
myeloid lineage genes in the studies noted
above likely resulted from the accumulation of
myeloid-biased HSCs, as these analyses were
performed on un separated pools of HSCs.
Despite the increase in their number, myeloid-
biased stem cells are not as robust as their
young counterparts .
Aging and immune system
Comment on pic.
Effects of aging on HSCs and lymphocyte progenitors.
Lymphopoiesis in the young (left) is characterized by robust B and T cell production in the
bone marrow and thymus. The pool of HSCs includes a relatively high number of
lymphoid-biased stem cells that efficiently generate lymphoid progenitors with high
proliferative potential. However, with increasing age (right), the number of lymphoid-
biased HSCs declines and myeloid-biased stem cells predominate, contributing to the
reduced numbers of lymphoid progenitors. In addition, B cell progenitors in the bone
marrow and T cell progenitors in the thymus exhibit reduced rates of proliferation and
higher levels of apoptosis compared with their young counterparts. The increased
expression of Ink4a and Arf in pro-B cells and Ink4a in ETPs contribute to this decreased
proliferation/increased apoptosis. The decline in primary lymphopoiesis in turn results in
a reduced number of naive cells that migrate to secondary lymphoid tissues such as the
spleen.
intrinsically programmed events in stem
and progenitor cells may be operative,
which would presume that these cells have
some sort of internal clock that regulates
their function and longevity. However,
accumulating evidence suggests that
declines in lymphopoiesis are influenced
by age-related changes in the
environment.
Aging and immune system
Comment on pic.
The strength of the immune response declines with age.
Multiple age-related changes can affect the composition and
function of lymphocytes in secondary lymphoid tissues. CD4+
Th cells exhibit activation defects and increased differentiation
into Th17 cells. CD8+ T cells undergo an oligoclonal expansion
and loss of CD28 in humans and exhibit impaired function. The
number of B cells that respond to influenza is reduced, and
antibody avidity in response to carbohydrate antigens is
diminished. In addition, the tissue environment includes an
increased concentration of inflammatory cytokines, which may
be produced by stromal elements, dendritic cells, or aging B
and T cells. The increased number of memory cells that occupy
tissue niches and the inflammatory milieu in turn may
compromise the ability of naive B and T cells migrating from the
bone marrow and thymus to lodge in the tissue. Together, these
changes result in diminished immune function in the elderly.
Aging and immune system
Aging and immune system
Selected strategies to rejuvenate the involute thymus.
The potential of several hormones and growth factors to rejuvenate the involute
thymus has been tested in various preclinical and clinical trials. Many of these
factors can be grouped into three categories. Those in the first (i), such as IL-7,
bind to progenitors in the bone marrow and thymus and have only modest
effects on thymopoiesis. There is little evidence that IL-7 has effects on thymic
stromal cells. Instead, the benefit of IL-7 may lie in its ability to stimulate
peripheral T cell survival/expansion. The second category (ii) includes hormones
such as GH that have been demonstrated in preclinical and clinical trials to
stimulate thymopoiesis and increase thymic size. Many GH effects are mediated
through induction of IGF-1. IGF-1 can bind to receptors on thymic stroma and
thymocytes, although its actions are primarily mediated through effects on the
former cells. Stromal cell–derived factors presumably then act on thymocytes
(curved arrow). A third category of factors (iii), typified by FGF7, bind to stromal
cells but not thymocytes. Stromal cell–induced factors then act on thymocytes
(curved arrow), and we have recently demonstrated that effects include
downregulation of Ink4a in ETPs (82). The thymopoietic effects of several
additional factors have been evaluated, and recent detailed reviews should be
consulted for more information.
References:
http://www.nlm.nih.gov/medlineplus/ency/article
/004008.htm
http://www.sciencedaily.com/releases/2012/07/1
20717162133.htm
http://www.jci.org/articles/view/64096
http://www.jci.org/articles/view/64096/figure/1
https://www.salk.edu/labs/belmonte/aging.php

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Aging and immune system

  • 2. Aging and immune system Eman yousssif
  • 3. The content Aging changes in immunity Effects of aging on immune system development
  • 4. Aging changes in immunity As you grow older, your immune system changes and does not work as well: It is slower to respond. This increases risk of getting sick. Flu shots or other vaccines may not work as well or protect you for as long as expected. An autoimmune disorder may develop. This is a disease in which the immune system mistakenly attacks and destroys healthy body tissues. Healing is also slowed in older persons. There are fewer immune cells in the body to bring about healing. The immune system's ability to detect and correct cell defects also declines. This can result in an increase in the risk of cancer.
  • 5. Aging is known to affect immune function, a phenomenon known as immune senescence, but how this happens is not clear
  • 6. All cells generate chemicals called free radicals as a normal part of metabolism. These highly reactive, unstable molecules can readily damage proteins, lipids and other cellular components through oxidation (the reaction between oxygen and substances it comes in contact with). Cells keep "oxidative stress" in check by producing several enzymes that are scavengers of free radicals. But in aging, increased production of free radicals coupled with cells' decreased production of antioxidant enzymes cause a buildup of damaged proteins and other molecules that can be toxic to cells.
  • 7. The current study is the first to examine whether age-related oxidative stress compromises the function of a type of immune cell called dendritic cells. "Dendritic cells are known as the 'sentinels of the immune system' and alert the rest of the immune system to the presence of microbial invaders,
  • 8. isolated dendritic cells from aging mice and found that oxidation-damaged proteins had accumulated in those cells and had caused harmful effects. For example, oxidatively modified proteins hampered the function of endosomes, the cell's organelle where pathogens are inactivated.
  • 9. aging may compromise the ability of the immune system to fight infections and respond to vaccines. The study, conducted in aging mice, shows that administering antioxidants may help reverse this loss of immune function
  • 10. Effects of aging on immune system development →HSCs exhibit multiple age-related changes that include impaired adherence to stromal cells and, in some strains of mice and humans. From an immunologic perspective, the most profound effect of stem cell aging in both mice and humans is a decreased capacity to produce lymphocytes and an increase in myeloid potential. This shift has been correlated with increased expression of myeloid lineage genes and down regulation of those specifying a lymphoid lineage fate .
  • 11. it is now appreciated that the number of lymphoid-biased stem cells declines with age concomitant with an increase in myeloid-biased HSCs .The age-related increase in expression of myeloid lineage genes in the studies noted above likely resulted from the accumulation of myeloid-biased HSCs, as these analyses were performed on un separated pools of HSCs. Despite the increase in their number, myeloid- biased stem cells are not as robust as their young counterparts .
  • 13. Comment on pic. Effects of aging on HSCs and lymphocyte progenitors. Lymphopoiesis in the young (left) is characterized by robust B and T cell production in the bone marrow and thymus. The pool of HSCs includes a relatively high number of lymphoid-biased stem cells that efficiently generate lymphoid progenitors with high proliferative potential. However, with increasing age (right), the number of lymphoid- biased HSCs declines and myeloid-biased stem cells predominate, contributing to the reduced numbers of lymphoid progenitors. In addition, B cell progenitors in the bone marrow and T cell progenitors in the thymus exhibit reduced rates of proliferation and higher levels of apoptosis compared with their young counterparts. The increased expression of Ink4a and Arf in pro-B cells and Ink4a in ETPs contribute to this decreased proliferation/increased apoptosis. The decline in primary lymphopoiesis in turn results in a reduced number of naive cells that migrate to secondary lymphoid tissues such as the spleen.
  • 14. intrinsically programmed events in stem and progenitor cells may be operative, which would presume that these cells have some sort of internal clock that regulates their function and longevity. However, accumulating evidence suggests that declines in lymphopoiesis are influenced by age-related changes in the environment.
  • 16. Comment on pic. The strength of the immune response declines with age. Multiple age-related changes can affect the composition and function of lymphocytes in secondary lymphoid tissues. CD4+ Th cells exhibit activation defects and increased differentiation into Th17 cells. CD8+ T cells undergo an oligoclonal expansion and loss of CD28 in humans and exhibit impaired function. The number of B cells that respond to influenza is reduced, and antibody avidity in response to carbohydrate antigens is diminished. In addition, the tissue environment includes an increased concentration of inflammatory cytokines, which may be produced by stromal elements, dendritic cells, or aging B and T cells. The increased number of memory cells that occupy tissue niches and the inflammatory milieu in turn may compromise the ability of naive B and T cells migrating from the bone marrow and thymus to lodge in the tissue. Together, these changes result in diminished immune function in the elderly.
  • 19. Selected strategies to rejuvenate the involute thymus. The potential of several hormones and growth factors to rejuvenate the involute thymus has been tested in various preclinical and clinical trials. Many of these factors can be grouped into three categories. Those in the first (i), such as IL-7, bind to progenitors in the bone marrow and thymus and have only modest effects on thymopoiesis. There is little evidence that IL-7 has effects on thymic stromal cells. Instead, the benefit of IL-7 may lie in its ability to stimulate peripheral T cell survival/expansion. The second category (ii) includes hormones such as GH that have been demonstrated in preclinical and clinical trials to stimulate thymopoiesis and increase thymic size. Many GH effects are mediated through induction of IGF-1. IGF-1 can bind to receptors on thymic stroma and thymocytes, although its actions are primarily mediated through effects on the former cells. Stromal cell–derived factors presumably then act on thymocytes (curved arrow). A third category of factors (iii), typified by FGF7, bind to stromal cells but not thymocytes. Stromal cell–induced factors then act on thymocytes (curved arrow), and we have recently demonstrated that effects include downregulation of Ink4a in ETPs (82). The thymopoietic effects of several additional factors have been evaluated, and recent detailed reviews should be consulted for more information.

Notas del editor

  1. http://www.jci.org/articles/view/64096