User:Pdeitiker/TOIG
| Peptide | Isoform | Native | Deamidated | Binding |
| or Motif | where found | Seqeunce | Seqeunce | Coefficient |
| "E~E~E 33mer" | synthetic | (see Text) | E~E~E | 0.4 μM |
| "33mer" + TG2 | α-2 gliadin | (see Text) | E~E~E | 0.8 μM |
| αIII motif | α-2 gliadin | PYPQPQLPY | PYPQPELPY | 3.5 μM |
| αI or "α-9" | α-2,8-11 gliadins | PFPQPQLPY | PFPQPELPY | 8 μM |
| αII motif | α-2 gliadin | PQPQLPYPQ | PQPELPYPQ | 15 -19 μM |
| For binding lower numbers mean stronger binding | ||||
[2] Gamma-M369999 gliadin contains 8 T-cell recognition sites, and γ-secalin has 2 T-cell sites (80-93), (117-125)[3]. Many γ-gliadins contains the "γ-30" motif (see also: "γ-30" gliadin motifs). The gamma-gliadin of wheat is believed to have a structure most conserved relative to ancestral gliadins. Barley, which is the most distantly related cereal to wheat in Triticeae has one similar T-cell site in its glutinous protein, hordein, (56-69) [3].
- Already mentioned- gliadin resistance to extensive proteolysis, refine by mentioning 25mer and 33mer.
- yes-Increased epithelial permeability allows longer peptides into villi (secondary sources)
- I want this - other gliadin peptides appear to cause this permeability (one primary source)
- maybe - deficiencies in the cells of CD patients are also permissive (not a prolamin issue).
- yes - innate peptide stimulates mononuclear cells[(MNCs)]
- maybe - mention innate stimulates gamma-delta lymphocytes (those increase IELs, thats them)
- yes - MNCs make IL15
- no - IL15 does 6 additional listed things-not here, too much.
- no - IL15 behaves like IL2 or IL12-not here, too much.
- yes - that [IL15] prime[s] immune response for destruction of villi.
- yes - that the [conversion to coeliacs] proceeds with DQ-presented gliadin peptide.
Gluten immunochemistry
- 1 Innate immunity
- 1.1 Alpha gliadin 31-43
- 1.1.1 Intraepithileal lymphocytes and IL15
- 1.1 Alpha gliadin 31-43
- 1.2 Infiltrating peptides
- 2 HLA Class I restrictions to gliadin
- 3 HLA-DQ recognition of gluten
- 3.1 HLA-DQ2.5
- 3.1.1 DQ2.5 and alpha gliadin
- 3.1.2 Alpha-2 gliadin
- 3.1.3 DQ2.5 and gamma gliadin
- 3.1.4 DQ2 and glutelins
- 3.2 DQ2.2 restricted gliadin sites
- 3.3 HLA-DQ8
- 3.1 HLA-DQ2.5
- 4 Antibody recognition
Gluten sensitivity
- 1 Causes of gluten sensitivity
- 1.1 Gluten toxicity
- 1.2 Immunochemistry of glutens
- 2 Separating forms of Gluten sensitivity
- 3 Gluten-sensitive enteropathy
- 4 Idiopathic gluten sensitivity
- 4.1 Neuropathies
- 4.2 Other conditions
- 5 Gluten-allergy related sensitivities
- 6 Comparative pathophysiology
Prolamins[edit]
The proteins in food responsible for the immune reaction in coeliac disease are the prolamins. These are storage proteins rich in proline (prol-) and glutamine (-amin) that dissolve in alcohols and are resistant to pepsin and chymotrypsin, the two main digestive proteases in the gut.[citation needed] Gliadin in wheat is the best-understood member of this family, but other prolamins exist and hordein (from barley), and secalin (from rye) may contribute to coeliac disease.[4] However, not all prolamins will cause this immune reaction and there is ongoing controversy on the ability of avenin (the prolamin found in oats) to induce this response in coeliac disease. [Bolded statement needs to be moved.]
References[edit]
- ^ These sites Gamma gliadin also contains repetitive DQ2 restricted T-cell sites, giadin 60-79, 66-78, 102-113, 115-123 and 228-236
- ^ Arentz-Hansen H, McAdam S, Molberg Ø, Fleckenstein B, Lundin K, Jørgensen T, Jung G, Roepstorff P, Sollid L (2002). "Celiac lesion T cells recognize epitopes that cluster in regions of gliadins rich in proline residues". Gastroenterology. 123 (3): 803–9. doi:10.1053/gast.2002.35381. PMID 12198706.
{{cite journal}}: CS1 maint: multiple names: authors list (link) - ^ a b Cite error: The named reference
Gli_Motifwas invoked but never defined (see the help page). - ^ van Heel D, West J (2006). "Recent advances in coeliac disease". Gut. 55 (7): 1037–46. doi:10.1136/gut.2005.075119. PMID 16766754.