Amyloid and prions are misfolded proteins, but what, if any, is the difference between them?
Is amyloid a type of prion with a fibrillar structure?
Amyloids are protease resistant insoluble fibrils formed because of (mis)folding and aggregation of soluble proteins (Rambaran and Serpell, 2008, Sabate et al., 2015). The first definition of prion was given by Prusiner (1982):
Because the novel properties of the scrapie agent distinguish it from viruses, plasmids, and viroids, a new term "prion" is proposed to denote a small proteinaceous infectious particle which is resistant to inactivation by most procedures that modify nucleic acids.
Many prionic diseases are characterized by amyloid fibril formation and therefore some (if not many) researchers consider prions to be a subset of amyloids.
Prions are considered a subclass of amyloids in which protein aggregation becomes self-perpetuating and infectious.
(Sabate et al., 2015)
However, the amyloid structure formation is not essential either for the autopropagation or disease progression (Moore et al., 2014).
When wild-type C57BL/10 mice are infected intracranially with the RML mouse prion strain, PrPSc accumulates in diffuse nonamyloid deposits and brain pathology is distinguished by the hallmark gray matter spongiosis for which TSEs are named. Conversely, when transgenic mice homozygous for PrPC lacking the GPI anchor (Tg44 or “anchorless” mice) are infected with the same RML strain, the incubation time is longer and PrPSc accumulates in dense perivascular amyloid plaques with little or no gray matter spongiosis.9−11 Similar amyloid PrPSc deposition and disease resulting in death has been observed in humans with an aberrant stop codon in the C-terminal portion of the PrP sequence, resulting in the generation of PrP lacking the GPI anchoring group as well as some amino acid residues.13−16 Thus, GPI-anchoring of PrPC to the plasma membrane appears to be a primary factor determining the type of PrPSc deposition and the development of brain pathology.
You can say that the prion protein PrPC is amyloidogenic but it is not an amyloid.
There are non-pathogenic (and in fact useful prions) found in fungi. Many of these beneficial prions also form the amyloid (like) structure but they can be disaggregated by chaperones (Wickner et al., 2018). Now again, it is not essential for these beneficial prions to form an amyloid structure.
Prions (defined as “infectious proteins”) need not be amyloids. The vacuolar protease B (Prb1p) of Saccharomyces cerevisiae is made as an inactive precursor that is normally cleaved and so activated by the action of protease A (Pep4p) . However, in the absence of Pep4p, mature active Prb1p can activate its own precursor . This self-activation can propagate and pass from cell to cell in an infectious manner, acting like a prion, and named [BETA] . In the absence of Pep4p, [BETA] is necessary for meiosis and spore formation and for survival in stationary phase . It is thus a functional prion.
Many known prions are amyloidogenic and can switch to amyloid form. However, as per the definition, prions are "infectious" or in other words, self-propagating proteins. What qualifies as a prion depends on our definition. Mode of action of most known prions is catalyzing a change in the protein fold. Wickner et al (as quoted above) reason that the original definition does not explicitly include the mode of action and hence proteins that activate themselves via proteolysis should also be considered prions. Nonetheless, it quite likely that in near future some proteins are discovered that auto-catalyze a change in their structure while not forming amyloid structures. Such examples will invalidate the statement that prions are a subset of amyloids.
In any case, "amyloid" is a structural property whereas "prion" is a functional property and they cannot be considered a sub/superset of one another, even if they happen to be correlated.
The bottomline is:
Amyloid is a form of supramolecular protein structure which is often formed by many prionic proteins. However, not all amyloid forming proteins are prionic and not all prions necessarily form amyloids.