Abstract
Astakine is an important cytokine that is involved in crustacean hematopoiesis. Interestingly, the protein levels of astakine increased dramatically in plasma of LPS-injected shrimp while mRNA levels remained unchanged. Here, we investigated the involvement of astakine 3′-untranslated region (UTR) in its protein expression. The 3′-UTR of astakine down-regulated the expression of reporter protein but the mRNA stability of reporter gene was unaffected. We identified the functional regulatory elements of astakine 3′-UTR, where 3′-UTR242–483 acted as repressor. The electrophoresis mobility shift assay (EMSA), RNA pull-down assay and LC/MS/MS were performed to identify the protein association. We noted that crustin Pm4 and shrimp transglutaminase I (STG I) were associated to astakine 3′-UTR242–483, while two other proteins have yet to be revealed. Depletion of hemocytic crustin Pm4 and STG I significantly increased the protein level of astakine while astakine mRNA level remained unaffected. Lipopolysaccharide (LPS) stimulated the secretion of crustin Pm4 and STG I from hemocytes to plasma and increased the astakine level to stimulate the hemocytes proliferation. Altogether, we identified the shrimp crustin Pm4 and STG I as novel RNA binding proteins that play an important role in down-regulating astakine expression at post-transcriptional level and are crucial for the maintenance of hematopoiesis.
Highlights
Crustaceans have open circulatory system in which maintenance of homeostasis and innate immune response are closely related, and where hemocytes play important roles against pathogens [1,2]
When we divided the 39-UTR242–483 into 39-UTR242–362 and 39UTR363–483, and assayed the regulatory function separately, the down-regulation activity was restored to 35%
The additional 671 bp in the 39UTR of long astakine transcript suggests that the inserted fragment of 39UTR may play an important role in regulating the expression of astakine
Summary
Crustaceans have open circulatory system in which maintenance of homeostasis and innate immune response are closely related, and where hemocytes play important roles against pathogens [1,2]. During infection or massive hemocytes loss, hematopoietic tissues produce hemocytes to maintain homeostasis. Some immunostimulants, such as LPS and laminarin, cause massive depletion of hemocyte. The cells significantly proliferate in hematopoietic tissue of tiger shrimp Penaeus monodon after LPS injection [4]. These similar observations have been observed using laminarin stimulation [5]. It is considered that when shrimp is infected by a pathogen, the involvement of hematopoiesis and hemocyte regulation is crucial response to the pathogen and maintenance of homeostasis
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