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CFTR：cystic fibrosis transmembrane conductance regulator protein

mR-509-3p：表達(dá)CFTR的mRNA

miR-509-3p：一種可以調(diào)節(jié)mR-509-3p的miRNA

PNA：肽核酸

囊胞性纖維癥是一種常見(jiàn)的基因突變導(dǎo)致的疾病，每3000個(gè)高加索人中就有一個(gè)患有此病。這個(gè)疾病使由于基因突變導(dǎo)致cystic fibrosis transmembrane conductance regulator (CFTR) protein 的表達(dá)發(fā)生變化，比如蛋白結(jié)構(gòu)發(fā)生改變或者表達(dá)量減少，致使細(xì)胞某些功能功能喪失或者減弱。有不止一種突變類(lèi)型的突變，CFTR蛋白還保留部分功能，因此，通過(guò)提高CFTR蛋白的表達(dá)量可以治療Cystic Fibrosis。 研究表明，細(xì)胞中存在miRNA，會(huì)調(diào)節(jié)CFTR的mRNA（miR-509-3p ）的翻譯，導(dǎo)致CFTR蛋白表達(dá)量減少。因此，可以通過(guò)減少miR-509-3p 對(duì)mR-509-3p 的影響來(lái)提高CFTR的表達(dá)量。之前的研究是直接設(shè)計(jì)一條跟miR-509-3p互補(bǔ)的PNA，通過(guò)PNA可以競(jìng)爭(zhēng)性的與miR-509-3p的結(jié)合，從而抑制miR-509-3p對(duì)mR-509-3p的抑制作用。但研究表明，雖然針對(duì)miRNA的 PNA可以減少miRNA對(duì)相應(yīng)mRNA的影響，但是同時(shí)也會(huì)影響很多其它的mRNA。這是因?yàn)橐粭lmiRNA可以調(diào)節(jié)幾百甚至幾千種mRNA 。

鑒于此，我們?cè)O(shè)計(jì)了另外一種方法來(lái)減少miR-509-3p對(duì)mR-509-3p的調(diào)節(jié)作用。 設(shè)計(jì)與mR-509-3p 的3′UTR 互補(bǔ)的PNA。 PNA與3′UTR 結(jié)合后，位點(diǎn)被保護(hù)，miR-509-3p就不會(huì)對(duì)mR-509-3p 有調(diào)節(jié)作用，從而miR-509-3p對(duì)mR-509-3p的抑制作用就減弱，CFTR蛋白的表達(dá)量就會(huì)得到明顯提高，患者的癥狀得到緩解。

實(shí)驗(yàn)結(jié)果： 設(shè)計(jì)的13bp 的PNA 能顯著的提高CFTR蛋白的表達(dá)量（增加70%）。PNA能與相應(yīng)的mRNA位點(diǎn)牢固結(jié)合，形成heteroduplexes ，從而保護(hù)了mRNA，不會(huì)被miRNA識(shí)別并結(jié)合。

Molecules 2017, 22(7), 1144; doi:10.3390/molecules22071144

原文要點(diǎn)：

In this paper, we have proposed for the first time the use of PNAs as miRNA target protectors to increase the expression of CFTR in CF. The negatively charged PNAs 1 and 2, conveniently modified at their C-ends and fully complementary to the 3’UTR region of the CFTR mRNA recognized by the seed region of miR-509-3p, were synthesized and characterized. To demonstrate the sequence dependent activity of 1 and 2, two other PNAs , containing scrambled sequences of 1 and 2, respectively, were designed and synthesized. Spectroscopic data confirmed the ability of 1 and 2 to bind their complementary ODN target by forming stable PNA/ODN heteroduplexes. The structural features of 1/RNA and 2/RNA heteroduplexes were also determined through molecular dynamics simulations. The results indicated that the presence of the negatively charged tetra peptide at the C-end of 1 and 2 slightly affected the structural features of the resulting PNA/RNA heteroduplexes (with respect to the experimentally determined PNA/RNA heteroduplexes). Biological studies show that the PNA molecules are suitable to counteract the action of miR-509-3p (in this case) as miRNA target protectors. These data confirm, once again, that a mRNA-targeted approach of a gene to increase the expression of the protein could be a good therapeutic strategy (that, of course, could be also used in other monogenic diseases). Moreover, the PNAs, showing a high affinity towards nucleic acid targets and forming stable heteroduplex complexes, represent excellent candidates to be used for this approach. Furthermore, this type of approach has the advantage of being relatively mutation-independent. For this reason, it would be sufficient to increase the expression of a protein, even if mutated, to exceed the threshold of minimal activity needed to obtain an optimal clinical phenotype.