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Printable Handouts
Navigable Slide Index
- Introduction
- Outline
- What are mitochondria?
- Exercise-induced mitochondrial biogenesis
- Mitochondrial biogenesis
- Mitochondrial DNA (mtDNA)
- Mitochondrial nucleoid
- The electron transport chain
- Epidemiology of mitochondrial diseases
- Discovery of mtDNA mutations → mitochondrial diseases (1988)
- Discovery of mtDNA mutations → mitochondrial diseases (1992)
- Patterns of inheritance
- mtDNA heteroplasmy
- Adult onset of mitochondrial disease
- Mitochondrial respiratory-chain disease
- Mitochondrial diseases (1)
- Mitochondrial diseases (2)
- MELAS
- LHON
- KSS
- Childhood onset of mitochondrial disease
- Nuclear gene defects in mitochondrial diseases and their function
- Childhood-onset mitochondrial disease
- Mitochondrial diseases (3)
- POLG
- Leigh syndrome
- Clinical symptoms of mitochondrial diseases
- Mitochondrial disease diagnosis
- Treatment strategies
- Mouse model of aging: polymerase gamma (POLG) mutator mice
- Exercise rescues progeroid aging and induces systemic mitochondrial rejuvenation
- Therapeutic options for mitochondrial diseases
- Current clinical trials in mitochondrial diseases
- Other mitochondrial-related disorders
- Summary
- Acknowledgements
- References (1)
- References (2)
Topics Covered
- Mitochondria and mitochondrial biogenesis
- mtDNA and nucleoids
- The electron transport chain
- Epidemiology of mitochondrial diseases
- Heteroplasmy
- Mitochondrial diseases
- Adult and childhood onset of mitochondrial diseases (POLG, MELAS, LHON, KSS, Leigh syndrome)
- Treatment of mitochondrial diseases
- Mitochondrial-dysfunction related disorders
Links
Series:
- Mitochondrial Biogenesis
- Periodic Reports: Advances in Clinical Interventions and Research Platforms
Categories:
Talk Citation
Saleem, A. (2020, March 31). Mitochondrial diseases: an update [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 21, 2024, from https://doi.org/10.69645/ODQO8313.Export Citation (RIS)
Publication History
Financial Disclosures
- There are no commercial/financial matters to disclose.
Other Talks in the Series: Periodic Reports: Advances in Clinical Interventions and Research Platforms
Transcript
Please wait while the transcript is being prepared...
0:00
Welcome to the Henry
Stewart Talks.
My name is Ayesha Saleem
and I'm an assistant
professor in
the Faculty of Kinesiology
and Recreation Management
at the University
of Manitoba and
a principal investigator at
the Children's Hospital
Research Institute of Manitoba.
The title of today's talk is
Mitochondrial
Diseases: An Update.
0:22
This is the outline
for the talk today.
First I will give some
background information
on mitochondria and its
structural components.
Then I will delve into
the epidemiology of
mitochondrial disease.
I will follow that up by
looking at adult-onset and
then childhood-onset
mitochondrial diseases that are
characterized primarily
by defects in
mitochondrial and nuclear
DNA respectively.
Finally, I will explore
the symptoms and
therapeutic options for
mitochondrial diseases and
finish the talk by
discussing a subset of
non-communicable
diseases that are
linked to dysfunctional
mitochondria.
0:60
About 2 billion years ago,
a single fusion event between
a prokaryotic and a
eukaryotic cell may have
ultimately led to
the presence of
mitochondria within
our cells today.
Mitochondria are tiny
organelles found in
almost all eukaryotic cells,
and are necessary for
cell form and function.
Known as the powerhouse
of the cell,
mitochondria are responsible
for creating more than 90% of
cellular energy or ATP through
oxidative phosphorylation.
In addition to
their main role in
energy production
and metabolism,
mitochondria are the site for
synthesis of
iron-sulfur clusters,
steroid biosynthesis
and are involved
in initiating apoptosis
or programmed cell death,
production and removal of
reactive oxygen species,
oxidation of fatty acids
and regulation of
calcium signaling.
Shown is a schematic
of a mitochondrion.
Mitochondria are made of a
double phospholipid layer,
an outer mitochondrial membrane,
and an inner
mitochondrial membrane
that falls upon itself
and creates cristae,
thereby maximizing surface
area for chemical reactions.
The space between
the two membranes
is called the
inter-membrane space
and the space enclosed by
the inner mitochondrial membrane
is known as the matrix.
Mitochondria are unique
in that they are
the only sub-cellular
organelles to have
their own DNA that
can be found inside
the matrix in close proximity
to the electron transport chain.
The textbook depictions
of mitochondria
usually resort to a kidney
bean-shaped structure.
In reality, mitochondria
often exist in the form of
a reticular
interconnected network,
as shown in the
electron micrograph.
The dark structure is
of the mitochondria
found inside a
skeletal muscle fiber.
You can clearly appreciate
the beautiful organization
of cristae within
each mitochondrion that
gives the mitochondria
their characteristic
wrinkled appearance.
The number of
mitochondria per cell