JAK2V617F-Positive Endothelial Cells Induce Apoptosis and Release JAK2V617F-Positive Microparticles

JAK2V617F-Positive Endothelial Cells Induce Apoptosis and Release JAK2V617F-Positive Microparticles [Turk J Hematol]

Turk J Hematol. 2022; 39(1): 13-21 | DOI: 10.4274/tjh.galenos.2021.2021.0607

JAK2V617F-Positive Endothelial Cells Induce Apoptosis and Release JAK2V617F-Positive Microparticles

Hilal Hekimo�lu¹, Selin Fulya Toprak¹, Sel�uk S�zer²
¹�stanbul University, Aziz Sancar Institute of Experimental Medicine, Department of Genetics, �stanbul, Turkey; Institute of Health Sciences, �stanbul University, �stanbul, Turkey
²�stanbul University, Aziz Sancar Institute of Experimental Medicine, Department of Genetics, �stanbul, Turkey

Objective: Philadelphia chromosome-negative myeloproliferative neoplasms (MPNs) have a high propensity for thrombosis, which has been attributed to increased blood counts, endothelial cell (EC) dysfunction, and inflammation. The presence of the JAK2V617F mutation in the ECs of MPN patients has been confirmed, but the consequences of EC involvement by JAK2V617F in the pathogenesis of thrombosis are unclear. Endothelial microparticles (EMPs) released from ECs play an important role in endothelial dysfunction and also in the intercellular exchange of biological signals and information. Several studies have revealed that patients with JAK2V617F and a thrombosis history have increased numbers of MPs in their circulation.
Materials and Methods: The current study utilized a lentiviral transduction model of JAK2 wild type (JAK2wt) or JAK2V617F encoding green fluorescent protein (GFP) into human umbilical vein ECs to determine the effect of JAK2V617F on ECs. EC infected with JAK2V617F, JAK2WT, and only-GFP were tested after two days of culture.
Results: The proteins of ECs that potentially play a role in the development of thrombosis, including endothelial protein C receptor, thrombomodulin, and tissue factor, were detected by flow cytometry analysis with no statistical significance. Increased annexin-V uptake of JAK2V617F and JAK2wt ECs compared to GFP-alone ECs was detected. The EMP production in the supernatants of the EC culture was investigated. Genotyping of the EMPs revealed the presence of genomic DNA and RNA fragments in EMP cargos. JAK2V617F-positive DNA was detected in EMPs released from JAK2V617F-infected ECs and EMPs were shown to carry the genotype of the cell of origin.
Conclusion: JAK2V617F-positive EMPs were shown for the first time in the literature. This novel research provides the first evidence that EMPs might regulate neighboring and distant cells via their cargo materials. Thus, the direct effect of JAK2V617F on ECs and their functions suggests that different mechanisms might play a role in the pathogenesis of thrombosis in MPNs.

Keywords: JAK2V617F, Endothelial cells, Microparticles, Extracellular genomic materials

JAK2V617F-Pozitif Endotel H�creleri Apoptozu �nd�kler ve JAK2V617F-Pozitif Mikropartik�l Sal�n�m� Yapar

Ama�: Philadelphia kromozom negatif miyeloproliferatif neoplazi�ler (MPN), y�ksek tromboz riski ta��yarak inflamasyon, endotel h�cre (EH) disfonksiyonu ve artan kan say�lar� ile karakterize edilirler. �nceki �al��malarda, MPN hastalar�n�n EH�de JAK2V617F mutasyonunun varl�� tespit edilmi�tir. Ancak tromboz patogenezinde JAK2V617F mutasyonu ta��yan EH�in rol� belirsizdir. EH�den sal�nan endotel mikropartik�lleri (EMP�ler) biyolojik sinyallerin ve h�creler aras� bilginin de�i�iminde ve endotel disfonksiyonunda �nemli rol oynarlar. Bir�ok �al��mada, JAK2V617F mutasyonu ta��yan ve tromboz �yk�s� olan hastalar�n dola��mlar�nda artan say�da mikropartik�l oldu�unu ortaya konulmu�tur.
Gere� ve Y�ntem: �al��mam�zda, JAK2V617F�nin EH �zerindeki etkisini belirlemek i�in ye�il fluoresan proteini (GFP) ile i�aretli JAK2 yaban�l tip (JAK2WT) veya JAK2V617F�li lentiviral transd�ksiyon modeli kullan�larak insan g�bek kordonundan elde edilmi� endotel h�cre hatt� (HUVEC) enfekte edildi. JAK2V617F, JAK2WT ve sadece- GFP ile enfekte EH�ler iki g�n s�ren k�lt�r sonras�nda test edildi.
Bulgular: Ak�m �l�er analizinde, Endotelyal protein C resept�r�, trombomodulin ve doku fakt�r� dahil olmak �zere tromboz geli�iminde potansiyel rol oynayan EH proteinlerinde istatistiksel anlaml�l�k olmad�� tespit edildi. JAK2V617F ve JAK2WT enfekte EH�de annexin-V al�m�n�n sadece-GFP enfekte EH�ye k�yasla artt�� tespit edildi. EH k�lt�r�nden elde edilen s�pernatanlarda EMP �retimi ara�t�r�ld�. EMP genotiplemesinde EMP kargolar�nda genomik DNA ve RNA fragmanlar� varl�� tespit edildi. JAK2V617F enfekte EH�den sal�nan EMP�lerde JAK2V617F pozitif DNA tespit edildi ve EMP�lerin k�ken ald�klar� h�cre genotipini ta��d�� g�sterildi.
Sonu�: Bu �al��ma ile literat�rde ilk defa, JAK2V617F pozitif EMP�ler g�sterilmi�tir. Bu yeni ara�t�rma, EMP�lerin ta��d�klar� kargolar arac�l��yla kom�u ve uzaktaki h�creleri d�zenleme potansiyeli oldu�unu g�stermektedir. Bu sayede JAK2V617F�nin EH ve i�levleri �zerindeki direkt etkisi ile MPN�lerde tromboz patogenezinde farkl� mekanizmalar�n rol� oldu�unu ileri s�rer.

Anahtar Kelimeler: JAK2V617F, Endotel h�creler, Mikropartik�ller, Ekstrasel�ler genomik materyaller

Hilal Hekimo�lu, Selin Fulya Toprak, Sel�uk S�zer. JAK2V617F-Positive Endothelial Cells Induce Apoptosis and Release JAK2V617F-Positive Microparticles. Turk J Hematol. 2022; 39(1): 13-21

Corresponding Author: Sel�uk S�zer, T�rkiye

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