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Printable Handouts
Navigable Slide Index
- Introduction
- Amyloid is a stable fibrillar structure
- Functional amyloid in fungi and bacteria
- Amyloid function in mammalian organelles
- Introduction to melanosomes
- Formation of melanosomes in pigment cells
- What are these fibrils?
- Pmel17 is enriched in stage II melanosomes
- Pmel17 aligns on fibrils
- Pmel17 is necessary for fibril formation
- Is Pmel17 alone sufficient for fibril formation?
- Pmel17 is an integral membrane glycoprotein
- Maturation and processing of Pmel17
- Summary of Pmel17 maturation
- Pmel17 becomes insoluble over time
- Detergent-insoluble M-alpha on isolated fibrils
- Intralumenal fibrils consist of the M-alpha fragment
- PC inhibitor blocks processing
- MNT-1expressing alpha-1-PDX
- Pmel17 cleavage releases a fibrilogenic fragment
- Melanosomes contain amyloid
- Recombinant M-alpha forms amyloid fibrils
- Amyloids can facilitate melanin polymerization
- Pmel17 is a physiological form of amyloid
- Introduction to stage I melanosomes
- Pmel17 in multivesicular stage I premelanosome
- Stage I melanosome is an endosomal intermediate
- Endocytic capacity of stage I melanosome
- Pmel17 trafficks through early endosomes
- Pmel17 is sorted to intralumenal vesicles
- What are multivesicular bodies?
- Accumulation of Pmel17 in intra-luminal vesicles
- Formation of fibrils by Pmel17 in HeLa cells
- Model of amyloid formation in MVBs
- Hypothesis: amyloid formation needs MVBs
- How do other proteins sort in MVBs?
- Pmel17 sorting depends on lumenal domain
- Pmel17 domain structure
- Imperfect repeats in "repeat region" RPT
- RPT region is dispensable for MVB localization
- RPT domain is required for fibril formation
- Pmel17 lacking NTR or PKD domains (1)
- Pmel17 lacking NTR or PKD domains (2)
- Lumenal subdomains regulate invagination
- Is invagination required for fibril formation?
- Failure to sort to MVB and convertase cleavage
- Proprotein convertase cleavage of Pmel17
- Importance of invagination onto ILVs
- MVBs in Alzheimer's amyloidogenesis
- MVBs in prion amyloidogenesis
- Invagination onto ILVs needs an intermediate
- The ILVs as a platform to seed amyloidogenesis
- Final summary
- Acknowledgements
- References
Topics Covered
- Functional amyloid
- Amyloid fibrils in melanosome ultrastructure and formation
- Pmel17 processing to a fibrillar form
- Evidence that Pmel17 fibrils are amyloid
- Role of multivesicular bodies in Pmel17 amyloid formation
- Multivesicular bodies in amyloid formation by other substrates
Talk Citation
Marks, M. (2020, May 15). The dark side of amyloid: PMEL, a natural amyloid in melanosome biogenesis [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 22, 2024, from https://doi.org/10.69645/JNFF5530.Export Citation (RIS)
Publication History
Financial Disclosures
- Prof. Michael Marks has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
Update Available
The speaker addresses developments since the publication of the original talk. We recommend listening to the associated update as well as the lecture.
- Full lecture Duration: 51:54 min
- Update Interview Duration: 20:33 min
The dark side of amyloid: PMEL, a natural amyloid in melanosome biogenesis
A selection of talks on Biochemistry
Transcript
Please wait while the transcript is being prepared...
0:00
Hi, my name is Mickey Marks.
I'm an associate professor in
the Department of Pathology and Laboratory Medicine
at the University of Pennsylvania in Philadelphia.
What I'd like to talk to you about today is how the amyloid fold has been exploited for
use as a structural foundation of organelle biogenesis in mammalian cells.
0:20
You've heard all about from the previous lectures how
the cross-beta sheet structure of amyloid generates
these very stable fibrillar structures.
This of course, is a big problem when amyloid is formed in the wrong place at
the wrong time under pathological conditions
like Alzheimer's disease and Parkinson's disease.
But as one might imagine,
this type of structure can also provide some function if
used in the right place on the proper physiological conditions.
0:46
A good example of that,
that I'm sure you've heard from the previous lectures in this series,
are how certain fungi and bacteria make use of the amyloid fold.
One of a good example of that is the Sup 35 prion in Saccharomyces cerevisiae,
which under certain conditions forms amyloid structures
that then sequester translation termination factors.
This sequestration allows read-through of
certain messenger RNAs to encode extra protein regions within the encoded protein,
which then take on novel functions for the cell that have physiological consequences.
1:16
What I'll be talking to you about today is a different use of
the amyloid fold for structural purposes,
in this case, involved in organelle formation
for membrane-bound organelles inside of cells.
The system in which we study this is in the melanocyte,
which makes an organelle called the melanosome.
It's the pigment granule found in pigment cells in the eye and skin.
In this case, an amyloid called Pmel17 forms
a major structural foundation for the organelle that's required for its function.
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