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Frontotemporal lobar degeneration

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Frontotemporal lobar degeneration
Neuropathologic analysis of brain tissue from FTLD-TDP patients. Ubiquitin immunohistochemistry in cases of familial FTLD-TDP demonstrates staining of (a) neurites and neuronal cytoplasmic inclusions in the superficial cerebral neocortex, (b) neuronal cytoplasmic inclusions in hippocampal dentate granule cells, and (c) neuronal intranuclear inclusions in the cerebral neocortex (arrows). Scale bar; (a) and (b) 40 μm, (c) 25 μm, insert 6 μm.
SpecialtyNeurology, Psychiatry
ComplicationsBrain death

Frontotemporal lobar degeneration (FTLD) is a pathological process that occurs in frontotemporal dementia. It is characterized by atrophy in the frontal lobe and temporal lobe of the brain, with sparing of the parietal and occipital lobes.[1][2]

Common proteinopathies that are found in FTLD include the accumulation of tau proteins and TAR DNA-binding protein 43 (TDP-43). Mutations in the C9orf72 gene have been established as a major genetic contribution of FTLD, although defects in the granulin (GRN) and microtubule-associated proteins (MAPs) are also associated with it.[3]

Classification

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There are 3 main histological subtypes found at post-mortem:

  • Type A presents with many small neurites and neuronal cytoplasmic inclusion bodies in the upper (superficial) cortical layers. Bar-like neuronal intranuclear inclusions can also be seen they are fewer in number.
  • Type B presents with many neuronal and glial cytoplasmic inclusions in both the upper (superficial) and lower (deep) cortical layers, and lower motor neurons. However neuronal intranuclear inclusions are rare or absent. This is often associated with ALS and C9ORF72 mutations (see next section).
  • Type C presents many long neuritic profiles found in the superficial cortical laminae, very few or no neuronal cytoplasmic inclusions, neuronal intranuclear inclusions or glial cytoplasmic inclusions. This is often associated with semantic dementia.
  • Type D presents with many neuronal intranuclear inclusions and dystrophic neurites, and an unusual absence of inclusions in the granule cell layer of the hippocampus. Type D is associated with VCP mutations.
  • Type E presents with neuronal granulofilamentous inclusions and abundant fine grains involving upper (superficial) and lower (deep) cortical layers. This has been associated with behavioral variant of frontotemporal dementia with a rapid clinical course.[5]

Two groups independently categorized the various forms of TDP-43 associated disorders. Both classifications were considered equally valid by the medical community, but the physicians and researchers in question have jointly proposed a compromise classification to avoid confusion.[6]

  • FTLD-FUS; which is characterised by FUS positive cytoplasmic inclusions, intra nuclear inclusions, and neuritic threads. All of which are present in the cortex, medulla, hippocampus, and motor cells of the spinal cord and XIIth cranial nerve.

In December 2021 the structure of TDP-43 was resolved with cryo-EM[7][8] but shortly after it was argued that in the context of FTLD-TDP the protein involved could be TMEM106B (which has been also resolved with cryo-EM), rather than of TDP-43.[9][10]

Genetics

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There have been numerous advances in descriptions of genetic causes of FTLD, and the related disease amyotrophic lateral sclerosis.

  • Mutations in the Tau gene (known as MAPT or Microtubule Associated Protein Tau) can cause a FTLD presenting with tau pathology (FTLD-tau).[11] There are over 40 known mutations at present.
  • Mutations in the progranulin gene (PGRN) can cause a FTLD presenting with TDP-43 pathology (FTLD-TDP43). Patients with progranulin mutations have type 3 ubiquitin-positive, TDP-43 positive, tau-negative pathology at post-mortem. Progranulin is associated with tumorgenesis when overproduced, however the mutations seen in FTLD-TDP43 produce a haploinsufficiency, meaning that because one of the two alleles is damaged, only half as much progranulin is produced.[12]
  • Mutations in the CHMP2B gene are associated with a rare behavioural syndrome akin to bvFTLD (mainly in a large Jutland cohort), presenting with a tau negative, TDP-43 negative, FUS negative, Ubiquitin positive pathology.
  • Hypermorphic mutations in the VCP gene cause a TDP-43-positive FTLD which is associated with multisystem proteinopathy (MSP), also known as IBMPFD (inclusion body myopathy, Paget's disease and frontotemporal dementia)[13]
  • A hypomorphic mutation in the VCP gene cause a unique type of FTLD-tau called vacuolar tauopathy with neurofibrillary tangles and neuronal vacuoles [14]
  • Mutations in the TDP-43 gene (known as TARBP or TAR DNA-binding protein) are an exceptionally rare cause of FTLD, despite this protein being present in the pathological inclusions of many cases (FTLD-TDP43).[15] However, mutations in TARBP are a more common cause of ALS, which can present with frontotemporal dementia. Since these instances are not considered a pure FTLD they are not included here.

Mutations in all of the above genes cause a very small fraction of the FTLD spectrum. Most of the cases are sporadic (no known genetic cause).

  • A proportion of FTLD-TDP43 [with ALS] cases had shown genetic linkage to a region on chromosome 9 (FTLD-TDP43/Ch9). This linkage has recently been pinned down to the C9ORF72 gene. Two groups published identical findings back-to-back in the journal Neuron in mid-2011, showing that a hexanucleotide repeat expansion of the GGGGCC genetic sequence within an intron of this gene was responsible. This expansion was found to be present in a large proportion of familial and sporadic cases, particularly in the Finnish population[16]

Diagnosis

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For diagnostic purposes, magnetic resonance imaging (MRI) and ([18F]fluorodeoxyglucose) positron emission tomography (FDG-PET) are applied. They measure either atrophy or reductions in glucose utilization. The three clinical subtypes of frontotemporal lobar degeneration, frontotemporal dementia, semantic dementia and progressive nonfluent aphasia, are characterized by impairments in specific neural networks.[17] The first subtype with behavioral deficits, frontotemporal dementia, mainly affects a frontomedian network discussed in the context of social cognition. Semantic dementia is mainly related to the inferior temporal poles and amygdalae; brain regions that have been discussed in the context of conceptual knowledge, semantic information processing, and social cognition, whereas progressive nonfluent aphasia affects the whole left frontotemporal network for phonological and syntactical processing.[citation needed]

Treatment

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Society

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United States Senator Pete Domenici (R-NM) was a known sufferer of FTLD, and the illness was the main reason behind his October 4, 2007, announcement of retirement at the end of his term.[18] American film director, producer, and screenwriter Curtis Hanson died as a result of FTLD on September 20, 2016.[19] British journalist Ian Black died from the disease on January 22, 2023.[20]

See also

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References

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  1. ^ Whitwell, Jennifer L.; Anderson, Valerie M.; Scahill, Rachael I.; Rossor, Martin N.; Fox, Nick C. (2004). "Longitudinal Patterns of Regional Change on Volumetric MRI in Frontotemporal Lobar Degeneration". Dementia and Geriatric Cognitive Disorders. 17 (4): 307–310. doi:10.1159/000077160. ISSN 1420-8008. PMID 15178942.
  2. ^ Lu, Po H.; Mendez, Mario F.; Lee, Grace J.; Leow, Alex D.; Lee, Hyun-Woo; Shapira, Jill; Jimenez, Elvira; Boeve, Bradley B.; Caselli, Richard J.; Graff-Radford, Neill R.; Jack, Clifford R.; Kramer, Joel H.; Miller, Bruce L.; Bartzokis, George; Thompson, Paul M. (2013-01-09). "Patterns of Brain Atrophy in Clinical Variants of Frontotemporal Lobar Degeneration". Dementia and Geriatric Cognitive Disorders. 35 (1–2): 34–50. doi:10.1159/000345523. ISSN 1420-8008. PMC 3609420. PMID 23306166.
  3. ^ van der Zee, Julie; Van Broeckhoven, Christine (7 January 2014). "Dementia in 2013: Frontotemporal lobar degeneration—building on breakthroughs". Nature Reviews Neurology. 10 (2): 70–72. doi:10.1038/nrneurol.2013.270. PMID 24394289.
  4. ^ Kumar, Vinay; Abbas, Abul K.; Aster, Jon C. (2018). Robbins basic pathology (Tenth ed.). Philadelphia, Pennsylvania. p. 877. ISBN 9780323353175.{{cite book}}: CS1 maint: location missing publisher (link)
  5. ^ Lee, Edward B.; et al. (Jan 2017). "Expansion of the classification of FTLD-TDP: distinct pathology associated with rapidly progressive frontotemporal degeneration". Acta Neuropathol. 134 (1): 65–78. doi:10.1007/s00401-017-1679-9. PMC 5521959. PMID 28130640.
  6. ^ Ian R. A. Mackenzie; Manuela Neumann; Atik Baborie; Deepak M. Sampathu; Daniel Du Plessis; Evelyn Jaros; Robert H. Perry; John Q. Trojanowski; David M. A. Mann & Virginia M. Y. Lee (July 2011). "A harmonized classification system for FTLD-TDP pathology". Acta Neuropathol. 122 (1): 111–113. doi:10.1007/s00401-011-0845-8. PMC 3285143. PMID 21644037.
  7. ^ Arseni, Diana; Hasegawa, Masato; Murzin, Alexey G.; Kametani, Fuyuki; Arai, Makoto; Yoshida, Mari; Ryskeldi-Falcon, Benjamin (2022-01-06). "Structure of pathological TDP-43 filaments from ALS with FTLD". Nature. 601 (7891): 139–143. Bibcode:2022Natur.601..139A. doi:10.1038/s41586-021-04199-3. ISSN 0028-0836. PMC 7612255. PMID 34880495.
  8. ^ "An ALS Protein, Revealed". www.science.org. Retrieved 2022-04-04.
  9. ^ Jiang, Yi Xiao; Cao, Qin; Sawaya, Michael R.; Abskharon, Romany; Ge, Peng; DeTure, Michael; Dickson, Dennis W.; Fu, Janine Y.; Ogorzalek Loo, Rachel R.; Loo, Joseph A.; Eisenberg, David S. (2022-03-28). "Amyloid fibrils in disease FTLD-TDP are composed of TMEM106B not TDP-43". Nature. 605 (7909): 304–309. doi:10.1038/s41586-022-04670-9. ISSN 1476-4687. PMC 9844993. PMID 35344984. S2CID 247777613.
  10. ^ "Frontotemporal Dementia: Not the Protein We Thought". www.science.org. Retrieved 2022-04-04.
  11. ^ Goedert, M.; et al. (1989). "Cloning and sequencing of the cDNA encoding an isoform of microtubule-associated protein tau containing four tandem repeats: differential expression of tau protein mRNAs in human brain". The EMBO Journal. 8 (2): 393–9. doi:10.1002/j.1460-2075.1989.tb03390.x. PMC 400819. PMID 2498079.
  12. ^ Cruts, M.; et al. (2006). "Null mutations in progranulin cause ubiquitin-positive frontotemporal dementia linked to chromosome 17q21". Nature. 442 (7105): 920–4. Bibcode:2006Natur.442..920C. doi:10.1038/nature05017. PMID 16862115. S2CID 4423699.
  13. ^ Kimonis, V.E.; et al. (2008). "VCP disease associated with myopathy, Paget disease of bone and frontotemporal dementia: review of a unique disorder" (PDF). Biochim Biophys Acta. 1782 (12): 744–8. doi:10.1016/j.bbadis.2008.09.003. PMID 18845250.
  14. ^ Darwich, N.F., Phan J.M.; et al. (2020). "Autosomal dominant VCP hypomorph mutation impairs disaggregation of PHF-tau". Science. 370 (6519): eaay8826. doi:10.1126/science.aay8826. PMC 7818661. PMID 33004675.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  15. ^ Borroni, B.; et al. (2010). "TARDBP mutations in frontotemporal lobar degeneration: frequency, clinical features, and disease course". Rejuvenation Res. 13 (5): 509–17. doi:10.1089/rej.2010.1017. PMID 20645878.
  16. ^ Dejesus-Hernandez, M.; et al. (2011). "Expanded GGGGCC Hexanucleotide Repeat in Noncoding Region of C9ORF72 Causes Chromosome 9p-Linked FTD and ALS". Neuron. 72 (2): 245–56. doi:10.1016/j.neuron.2011.09.011. PMC 3202986. PMID 21944778.
  17. ^ Schroeter ML, Raczka KK, Neumann J, von Cramon DY (2007). "Towards a nosology for frontotemporal lobar degenerations – A meta-analysis involving 267 subjects". NeuroImage. 36 (3): 497–510. doi:10.1016/j.neuroimage.2007.03.024. PMID 17478101. S2CID 130161.
  18. ^ Blakeslee, Sandra (2008-04-08). "A Disease That Allowed Torrents of Creativity". The New York Times. ISSN 0362-4331. Retrieved 2024-01-05.
  19. ^ Kenneally, Tim (2016-09-21). "Curtis Hanson Suffered From Rare Illness, His Partner Reveals". TheWrap. Retrieved 2023-12-25.
  20. ^ "Ian Black, former Guardian Middle East editor, dies aged 69".

Bibliography

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Further reading

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