The role of collagen XIII in B-cell lymphoma development, and characterization of its biosynthesis and tissue distribution

Tuomisto, A. (Anne)

25 November 2008

Abstract Collagen XIII belongs to the subgroup of collagenous transmembrane proteins. It has a wide tissue distribution and has been localized to many sites of cell-matrix and cell-cell interaction in tissues. Biochemical and in silico analyses of collagen XIII and other collagenous transmembrane proteins revealed that the biosynthesis of this structurally varied group is characterized by a coiled-coil motif following the transmembrane domain, and these trimerization domains appear to be associated with each of the collagenous domains. The collagen XIII trimer was shown to have an interchain disulfide bond at the junction of the NC1 and COL1 domains, and several other collagenous transmembrane proteins have a pair of cysteines in the same location. Furthermore, furin cleavage at the NC1 domain can be expected in most of the proteins. Mice heterozygous for the Col13a1del transgene, encoding a mutant collagen XIII, developed clonal mature B-cell lineage lymphomas originating in the mesenteric lymph node (MLN). The incidence of disease in conventionally reared mice was 2-fold higher than for mice raised in a specific pathogen-free facility. The lymphomas often associated with large populations of macrophages and T cells. Lymphomas expressed little if any collagen XIII, suggesting that the effect of the mutation was B-cell extrinsic and likely to be associated with collagen XIII-positive tissues drained by the MLN. Studies of the small intestines of transgenic mice showed highly abnormal subepithelial basement membranes (BM), associated with heightened expression of genes involved in immune responses. These findings suggest that collagen XIII-dependent maintenance of the intestinal BM is a critical determinant of cancer susceptibility. Collagen XIII exhibited a wide tissue distribution at the protein level, and the most intense expression was found in lung. Tissues contained 1-4 collagen XIII polypeptides, their size ranging between 78 and 102 kDa. Collagen XIII staining was detected in a restricted set of blood vessels in the liver, pancreas, adrenal gland, epididymis and brain. Moreover, Col13a1del transgene expression in the absence of endogenous collagen XIII proved to be deleterious for mouse embryonal development, leading to early fetal mortality.

Collagen XIII/biosynthesis

collagen

collagenous transmembrane proteins

extracellular matrix

immunity

lymphoma

transgenic mice

Collagen XIII as a neuromuscular synapse organizer:roles of collagen XIII and its transmembrane form, and effects of shedding and overexpression in the neuromuscular system in mouse models

Härönen, H. (Heli)

02 January 2018

Abstract Collagen XIII is a transmembrane protein consisting of intracellular, transmembrane and extracellular domains. The latter can be cleaved by proteases of the furin family at the plasma membrane and in the trans-Golgi network. Both the transmembrane and shed collagen XIII are expressed at the neuromuscular junctions of mice and humans. Such motor synapse passes the contraction signal from the central nervous system to the muscles and brings about all voluntary movements. Loss of both forms of collagen XIII in mice and loss-of-function mutations in the COL13A1 gene in humans leads to congenital myasthenic syndrome characterized by decreased neuromuscular transmission and muscle weakness. To study the roles of the two collagen XIII forms, a novel mouse line was engineered to harbor only the transmembrane collagen XIII by mutating the furin cleavage site. Transmembrane collagen XIII was discovered to be sufficient to prevent adhesion defects, Schwann cell invagination, the ineffective vesicle accumulation and dispersion of both acetylcholinesterase and acetylcholine receptors, phenotypes seen in the complete lack of collagen XIII. On the other hand, lack of shedding led to acetylcholine receptor fragmentation, aberrantly increased neurotransmission and presynaptic complexity. Remarkably, in vivo and in vitro interaction of collagen XIII and acetylcholinesterase-anchoring ColQ was detected. Furthermore, muscle and neuromuscular junction phenotype in the lack of both forms of collagen XIII closely resembled those in the human patients harboring mutations in the COL13A1 gene and these mice were validated as a good model for studying the human disease. Misexpression of collagen XIII was studied with mice exhibiting transgenic overexpression of the protein. Overexpression of collagen XIII was detected to be mostly extrasynaptic in the muscles of such mice. Exogenous collagen XIII was found at the myotendinous junctions, tenocytes and fibroblast-like cells, in addition to some localization in the near vicinity of the neuromuscular junctions. Collagen XIII expression was found, for the most part, to be normal at the neuromuscular junctions, although some were devoid of collagen XIII. The neuromuscular junction phenotype resembled in many ways the findings made in the lack of collagen XIII. Furthermore, acetylcholine receptor and nerve pattern was discovered to be widened. / Tiivistelmä Kollageeni XIII on solukalvoproteiini, jonka rakenne koostuu solunsisäisestä, solukalvon läpäisevästä ja solun ulkoisesta osasta, joka pystytään entsymaattisesti irrottamaan solukalvoilta. Täten se esiintyy kahdessa eri muodossaan; solukalvomuotoisena ja soluvälitilan lihasperäisenä proteiinina hiirten ja ihmisten hermolihasliitoksessa. Tässä motorisessa synapsissa keskushermostosta peräisin oleva lihaksen supistumiskäsky välittyy lihakseen ja aikaan saa tahdonalaiset liikkeet. Molempien kollageeni XIII:n muotojen puute hiirillä ja COL13A1 geenin mutaatiot ihmisillä johtavat synnynnäiseen myasteeniseen oireyhtymään, jossa heikentynyt hermolihasliitoksen toiminta johtaa lihasheikkouteen. Kollageeni XIII:n eri muotojen hermolihasliitosvaikutusten selvittämiseksi luotiin hiirilinja, jossa kollageeni XIII ilmenee geneettisen manipulaation seurauksena ainoastaan solukalvomuodossaan. Tutkimukset osoittivat solukalvomuotoisen kollageeni XIII:n tarvittavan hermon ja lihaksen kiinnittymiseen toisiinsa, hermovälittäjäainerakkuloiden ankkuroimiseen hermopäätteeseen, estämään Schwannin solujen tunkeutuminen synapsirakoon, asetyylikoliiniesteraasin sitomiseen ja asetyylikoliinireseptorien vakaantumiseen. Soluvälitilan kollageeni XIII:n puutos puolestaan johti lihaksen puolen liitoksen pirstaloitumiseen sekä hermopäätteiden liialliseen kasvuun ja aktiivisuuteen. Kollageeni XIII todettiin sitoutuvan asetyylikoliiniesteraasia hermolihasliitokseen ankkuroivan kollageeni Q:n kanssa. Lisäksi molempien kollageeni XIII:n muotojen suhteen poistogeenisten hiirten hermolihas- ja lihaslöydökset todettiin muistuttavan COL13A1 geenin mutaatioista kärsivien ihmisten vastaavia löydöksiä todistaen nämä hiiret hyväksi tautimalliksi tulevaisuuden hoitomuotojen suunnitteluun. Kollageeni XIII:n ylimäärän vaikutusta hermolihasliitokseen ja lihaskudokseen tutkittiin kollageeni XIII:a ylenmäärin ilmentävillä hiirillä. Kollageeni XIII todettiin ilmentyvän ylenmäärin lihaksessa fibroblastinkaltaisissa soluissa, lihasjänneliitoksessa ja hermolihasliitoksen lähettyvillä, mutta ei hermolihasliitoksessa. Osa hermolihasliitoksista näissä hiirissä ilmensi jopa vähemmän kollageeni XIII:a kuin normaalisti. Asetyylikoliinireseptorien ja hermojen valtaama alue todettiin leventyneeksi ja hermolihasliitoslöydökset muistuttivat molempien kollageeni XIII:n muotojen suhteen poistogeenisien hiirten löydöksiä.

ColQ

acetylcholine receptor

acetylcholinesterase

collagen XIII

congenital myasthenic syndrome

fibroblast

myotendinous junction

neuromuscular junction

asetyylikoliiniesteraasi

asetyylikoliinireseptori

fibroblasti

hermolihasliitos

kollageeni Q

kollageeni XIII

lihasheikkous

lihasjänneliitos

synnynnäinen myasteeninen oireyhtymä