Odkrivanje interakcijskih partnerjev proteina ORF1p iz človeškega retrotranspozona LINE1

Habič, Anamarija

Odkrivanje interakcijskih partnerjev proteina ORF1p iz človeškega retrotranspozona LINE1
ID Habič, Anamarija (Avtor), ID Župunski, Vera (Mentor) Več o mentorju... Povezava se odpre v novem oknu

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Izvleček

Retrotranspozon LINE1 je edini še aktivni avtonomni retrotranspozon v genomu človeka, kjer njegove kopije predstavljajo kar 17 % celotne DNA. Aktivnost LINE1 je vzrok za preko 120 monogenskih bolezni, povečana pa je tudi pri nekaterih kompleksnejših boleznih, npr. pri raku. Kljub temu proces retrotranspozicije še vedno ni popolnoma pojasnjen, slabo poznane pa so tudi vloge proteinov, ki so kodirani v zaporedju LINE1. Zlasti nejasne so vloge RNA-vezavnega proteina ORF1p, ki se tipično nahaja v citoplazemskih granulah in kolokalizira z mRNA LINE1. V okviru magistrskega dela smo se osredotočili na proteinsko sestavo granul ORF1p. Z imunocitokemijo smo jih preučevali v celični liniji 2102Ep, v kateri se protein izraža endogeno, ter v več različnih celičnih linijah po prehodni transfekciji. Preverjali smo, ali v normalnih pogojih oz. v prisotnosti stresa kolokalizirajo z označevalnimi proteini telesc P ali stresnih granul. Granule endogenega ORF1p v celicah 2102Ep v normalnih pogojih niso sovpadale z nobenim od preučevanih označevalnih proteinov, kar nakazuje, da izražanje ORF1p v celicah verjetno ne povzroča kroničnega stresa. V nasprotju s tem je ORF1p v določenem deležu z ORF1p prehodno transficiranih celic kolokaliziral s telesci P, v nekaterih pa tudi s stresnimi granulami. To je lahko posledica prekomernega izražanja ORF1p, morda pa kaže tudi fiziološko dinamičnost granul ORF1p. Nedvoumno smo potrdili, da različni akutni eksogeni stresorji (NaAsO2, DTT, NaCl) povzročijo mobilizacijo endogenega in tudi prehodno izraženega ORF1p v stresne granule. V nadaljevanju smo želeli sestavo granul ORF1p v pogojih in vivo podrobneje okarakterizirati še s proteomskima metodama BAR in BioID, ki temeljita na označevanju proteinov v neposredni bližini tarčnega z biotinom. Z njima smo želeli primerjati sestavo granul v nestresiranih in stresiranih celicah ter interaktoma funkcionalnega ORF1p in njegove neaktivne mutirane različice JM111. Za izvedbo BioID smo pripravili več različnih fuzijskih proteinov ORF1p oz. JM111 z biotin ligazo BioID2 oz. TurboID in jih izrazili v sesalskih celicah. Analizirali smo njihovo aktivnost in celično lokalizacijo in na podlagi dobljenih rezultatov izbrali najustreznejše konstrukte za nadaljnje delo. Biotinilirane interakcijske partnerje ORF1p smo iz celičnih lizatov uspešno izolirali s testom »pull down«. Pripravili smo vzorce in kontrole za identifikacijo interakcijskih partnerjev proteina ORF1p s tehniko tekočinske kromatografije sklopljene z masno spektrometrijo. Rezultati bodo osnova za nadaljnje preučevanje funkcij ORF1p, prispevali pa bodo tudi k boljšemu razumevanju kompleksnega procesa retrotranspozicije.

Jezik:	Slovenski jezik
Ključne besede:	retrotranspozon LINE1, ORF1p, interakcijski partnerji, BAR, BioID
Vrsta gradiva:	Magistrsko delo/naloga
Tipologija:	2.09 - Magistrsko delo
Organizacija:	FKKT - Fakulteta za kemijo in kemijsko tehnologijo
Leto izida:	2020
PID:	20.500.12556/RUL-119396
COBISS.SI-ID:	29358339
Datum objave v RUL:	08.09.2020
Število ogledov:	1023
Število prenosov:	240
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Izvleček:
Jezik:	Angleški jezik
Naslov:	Identification of interaction partners of the human LINE1 retrotransposon protein ORF1p
Retrotransposon LINE1 remains the only active autonomous retrotransposon in the human genome, where its copies represent as much as 17% of total DNA. LINE1 activity is the cause of over 120 monogenic diseases and it is also increased in some complex diseases, e.g. in cancer. Despite this, the process of retrotransposition has not yet been fully elucidated, and the functions of the proteins encoded within the LINE1 sequence are also poorly understood. Particularly unknown are the roles of the RNA-binding protein ORF1p, which is typically located in cytoplasmic granules and colocalizes with LINE1 mRNA. In the master's thesis, we focused on the protein composition of the ORF1p granules. They were studied by immunocytochemistry in the 2102Ep cell line, in which the protein is expressed endogenously, and in several different cell lines after transfection. We checked whether they colocalize with marker proteins of P bodies or stress granules in normal conditions or upon stress. Granules of endogenous ORF1p in 2102Ep cells under normal conditions did not colocalize with any of the marker proteins, indicating that the expressions of ORF1p probably does not cause chronic stress. In contrast, in a certain proportion of ORF1p transiently transfected cells, ORF1p colocalized with P bodies and, in some cases, with stress granules. This may occur due to the protein’s overexpression, but it could as well indicate the physiological dynamics of ORF1p granules. We unequivocally confirmed that various acute exogenous stressors (NaAsO2, DTT, NaCl) cause the mobilization of endogenous as well as transiently expressed ORF1p into stress granules. Additionally, we aimed to characterize the protein composition of ORF1p granules in vivo by proteomic methods BAR and BioID, which are based on labelling of the proteins in close proximity to the target with biotin. We aimed to compare the composition of granules in unstressed and stressed cells as well as the interactomes of functional ORF1p and its inactive mutated version JM111. To implement BioID, we prepared several fusion proteins of ORF1p or JM111 with biotin ligase BioID2 or TurboID and expressed them in mammalian cells. We analysed their activity and cellular localization and, based on the obtained results, selected the most suitable constructs for further work. Biotinylated ORF1p interaction partners were successfully isolated from cell lysates by the pull-down assay. We prepared samples and controls in which ORF1p interaction partners will be identified by liquid chromatography–mass spectrometry. The results will serve as a basis for further study of the ORF1p functions, while they will also contribute to a better understanding of the complex process of retrotransposition.
Ključne besede:	retrotransposon LINE1, ORF1p, interaction partners, BAR, BioID

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