抗菌肽转基因整合对海峡鲶(Ictalurus punctatus)生殖、生长调节和非编码基因座的直接和多向效应

Jinhai Wang , Indira Medina Torres , Mei Shang , Jacob Al-Armanazi , Hamza Dilawar , Darshika U. Hettiarachchi , Abel Paladines-Parrales , Barrett Chambers , Kate Pottle , Misha Soman , Allison L. Wise , Rhoda Mae C. Simora , Timothy J. Bruce , Baofeng Su , Rex A. Dunham
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引用次数: 0

摘要

抗菌肽(AMPs)有望增强对病原体的抵抗力。此前,我们将两个 AMP 基因,即鳄鱼(密西西比短吻鳄或扬子鳄)的 cathelicidin(Cath)和蛾类(Hyalophora cecropia)的 cecropin(Cec)整合到了沟鲶(Ictalurus punctatus)的基因组中。本研究考察了外源 AMP 基因整合在提高转基因河豚细菌抗性方面的功效,并根据插入位点评估了基因置换/敲除对存活和生长的直接和多效应。与对照组相比,表达Cath和Cec的转基因鱼在初始培养期间表现出相似或更高的存活率(P> 0.05)。整合了 Cec 转基因的鱼在受到 Edwardsiella ictaluri 挑战时的存活率提高了一倍,Cath 的基因敲入(KI)进一步提高了细菌抗性。将 Cec KI 与 mstn 基因敲除(KO)相结合,可使伊塔鲁氏菌感染后的存活率提高 3 倍,受精后 4 个月(mpf)的生长率提高 50%。然而,随机整合 Cec 对抗病性的影响微乎其微,也不会提高生长速度。随机整合的 Cath 对 E. ictaluri 和 Flavobacterium covae 的存活率分别提高了 2.5 倍和 4 倍,但不影响生长。与对照组相比,Cath KI 与 mc4r KO 可使 F. covae 感染后的存活率提高 2.5 倍,并使 3 mpf 的生长率提高 80%。同时对 Cath 和 Cec 进行 KI 以及对 mc4r 和 mstn 进行 KO,可使伊卡菌的存活率提高 4 倍,3 mpf 时的生长速度提高 50%。AMP 基因的双重插入产生了最大的抗病性。这些直接和多生物效应可能会提高人们对水产养殖中基因工程的理解和社会接受度。
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Direct and pleiotropic effects of antimicrobial peptide transgene integration on reproductive, growth regulating, and non-coding loci in channel catfish (Ictalurus punctatus)

Antimicrobial peptides (AMPs) show promise in enhancing resistance against pathogens. Previously, we integrated two AMP genes, cathelicidin (Cath) from alligator (Alligator mississippiensis or Alligator sinensis) and cecropin (Cec) from moth (Hyalophora cecropia), into the channel catfish (Ictalurus punctatus) genome. This study examines the efficacy of exogenous AMP gene integration in improving bacterial resistance in transgenic channel catfish and assesses the direct and pleiotropic effects of gene replacement/knockout on survival and growth based on insertion site. Transgenic Cath- and Cec-expressing fish exhibited similar or higher survival rates (P ​> ​0.05) compared to controls during the initial culture. Integration of the Cec transgene doubled the survival rate when challenged with Edwardsiella ictaluri, with knock-in (KI) of Cath further increasing bacterial resistance. Coupling Cec KI with mstn knockout (KO) increased survival 3-fold after E. ictaluri infection and growth by 50% at 4 months post-fertilization (mpf). However, random integration of Cec had a minimal effect on disease resistance and did not enhance growth. Random integration of Cath increased survival 2.5-fold and 4-fold against E. ictaluri and Flavobacterium covae, respectively, without affecting growth. Cath KI at the lh locus increased survival 4-fold when challenged with F. covae and reduced growth by 10% (P ​> ​0.05) at 24 mpf, whereas Cath KI coupled with mc4r KO resulted in a 2.5-fold increase in survival following F. covae infection compared with controls, and increased growth by 80% at 3 mpf. Simultaneous KI of Cath and Cec, along with KO of mc4r and mstn, increased survival 4-fold against E. ictaluri, while increasing growth by 50% at 3 mpf. Dual insertion of AMP genes yielded the greatest resistance to disease. These direct and pleiotropic effects may increase comprehension and societal acceptance of genetic engineering in aquaculture.

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