Doppel expression is regulated by the Brn-3a and Brn-3b transcription factors

Essential but partially redundant roles for POU4F1/Brn-3a and POU4F2/Brn-3b transcription factors in the developing heart

Congenital heart defects contribute to embryonic or neonatal lethality but due to the complexity of cardiac development, the molecular changes associated with such defects are not fully understood. Here, we report that transcription factors (TFs) Brn-3a (POU4F1) and Brn-3b (POU4F2) are important for normal cardiac development. Brn-3a directly represses Brn-3b promoter in cardiomyocytes and consequently Brn-3a knockout (KO) mutant hearts express increased Brn-3b mRNA during mid-gestation, which is linked to hyperplastic growth associated with elevated cyclin D1, a known Brn-3b target gene. However, during late gestation, Brn-3b can cooperate with p53 to enhance transcription of pro-apoptotic genes e.g. Bax, thereby increasing apoptosis and contribute to morphological defects such as non-compaction, ventricular wall/septal thinning and increased crypts/fissures, which may cause lethality of Brn-3a KO mutants soon after birth. Despite this, early embryonic lethality in e9.5 double KO (Brn-3a^-/- : Brn-3b^-/-) mutants indicate essential functions with partial redundancy during early embryogenesis. High conservation between mammals and zebrafish (ZF) Brn-3b (87%) or Brn-3a (76%) facilitated use of ZF embryos to study potential roles in developing heart. Double morphant embryos targeted with morpholino oligonucleotides to both TFs develop significant cardiac defects (looping abnormalities and valve defects) suggesting essential roles for Brn-3a and Brn-3b in developing hearts.

Differential responses of neuronal and spermatogenic cells to the doppel cytotoxicity

Although structurally and biochemically similar to the cellular prion (PrP(C)), doppel (Dpl) is unique in its biological functions. There are no reports about any neurodegenerative diseases induced by Dpl. However the artificial expression of Dpl in the PrP-deficient mouse brain causes ataxia with Purkinje cell death. Abundant Dpl proteins have been found in testis and depletion of the Dpl gene (Prnd) causes male infertility. Therefore, we hypothesize different regulations of Prnd in the nerve and male productive systems. In this study, by electrophoretic mobility shift assays we have determined that two different sets of transcription factors are involved in regulation of the Prnd promoter in mouse neuronal N2a and GC-1 spermatogenic (spg) cells, i.e., upstream stimulatory factors (USF) in both cells, Brn-3 and Sp1 in GC-1 spg cells, and Sp3 in N2a cells, leading to the expression of Dpl in GC-1 spg but not in N2a cells. We have further defined that, in N2a cells, Dpl induces oxidative stress and apoptosis, which stimulate ataxia-telangiectasia mutated (ATM)-modulating bindings of transcription factors, p53 and p21, to Prnp promoter, resulting the PrP(C) elevation for counteraction of the Dpl cytotoxicity; in contrast, in GC-1 spg cells, phosphorylation of p21 and N-terminal truncated PrP may play roles in the control of Dpl-induced apoptosis, which may benefit the physiological function of Dpl in the male reproduction system.

The doppel gene biology: a scientific journey from brain to testis, and return

Doppel is a newly recognized prion-like molecule encoded by a novel gene locus, PRND, located on the same chromosomal region of the prion (PRNP) coding gene. Doppel was considered a paralogue and the first member of the prion-gene family, possibly originated through an ancestral gene duplication event. Prion and doppel have different expression patterns, suggesting that the gene products exhibit different biological functions. Actually, doppel is not involved in the aetiology of the Transmissible Spongiform Encephalopathies (TSEs) or “prion diseases” and is highly expressed only within the testicular tissue, suggesting an important physiological role in the process of spermatogenesis. The restricted spatial and temporal expression profile of doppel has suggested its investigation within particular pathological contexts, such as cancers, showing that it might represent a novel and attractive diagnostic molecular marker and that might provide insights into the regulatory pathways of tumor-cell transformation.

Spatio-Developmental Distribution of the Prion-Like Protein Doppel in Mammalian Testis: A Comparative Analysis Focusing on Its Presence in the Acrosome of Spermatids1

The first prion-like protein doppel, officially designed as prion protein dublet, does not seem to be needed for prion disease progression, whereas its physiological function seems to be related to male fertility. Its expression is primarily detected in the male genital tract, and Prnd-inactivated male mice are sterile. We investigated the location of Doppel in the testis of various species of mammal to determine its physiological function. Doppel is expressed early during ontogenesis, and is found in both germ cells and Sertoli cells in mice, rats, boars, and humans. Doppel is permanently expressed in the Sertoli cells but at different levels according to species. Its expression in testicular germ cells was primarily detected in spermatids, with a transient presence in the acrosome. These data suggest that Doppel may play a physiological role in acrosome biogenesis and may be of use in studies of patients suffering from idiopathic infertility.

Involvement of upstream stimulatory factor in regulation of the mouse Prnd gene coding for Doppel protein

Promoter of the Prnd gene coding for the Prion-like protein Doppel contains two critical cis-regulatory elements, NF-Y consensus motif and canonical E-box. Here, we studied a role of the upstream stimulatory factor (USF) in the E-box-mediated activation of Prnd transcription. Co-expression of USF-1 with the luciferase reporter gene driven by the -185/+27 Prnd promoter fragment resulted in several fold increase of the luciferase activity. Conversely, mutations within the E-box led to a significantly reduced Prnd promoter activation. USF-1 binding was supported by the gel shift assay, supershift with USF-1 antibody and UV cross-linking. The activation capacity of the related USF-2, c-Myc and HIF-2alpha proteins was lower compared to USF-1 suggesting that USF-1 is the major E-box-binding transcription factor regulating the Prnd promoter.

Overexpression of the Doppel protein in acute myeloid leukaemias and myelodysplastic syndromes

We investigated the expression patterns and distribution of Doppel (Dpl), the product of the prion-like gene PRND, in the leukaemic cell lines HL-60 and K562 and in bone marrow cells from 44 patients with acute myeloid leukaemia (AML) and 63 patients with myelodysplastic syndrome (MDS). Whereas normal samples were negative or showed very weak expression that was restricted to CD34(+) cells, Dpl was detected in both cell lines and in most AML and MDS cases by immunocytochemistry and Western blotting. Quantitative reverse transcription polymerase chain reaction revealed variable mRNA levels in almost all AML and MDS cases, but barely detectable levels in normal bone marrow. These differences were confirmed by in situ hybridization. PRND expression was higher in advanced compared with early MDS (P = 0.01), but Dpl levels did not predict disease progression. In AML there was no correlation between Dpl levels and clinical or laboratory findings. In conclusion, this is the first time that the expression of PRND has been demonstrated in human bone marrow. The molecular mechanism of the observed overexpression is unknown; however, the differential Dpl distribution in AML and MDS versus healthy subjects makes it a possible leukaemia-associated antigen that could be useful for diagnostic and therapeutic purposes.

Identification of the critical cis-acting elements in the promoter of the mouse Prnd gene coding for Doppel protein

Prnd gene encodes a prion-like protein Doppel. To elucidate the transcriptional regulation of the mouse Prnd gene, we performed a study of its 5' flanking region. Serial deletion analysis of the -1863/+27 genomic fragment revealed the region -185/+27 as a core promoter. Cis-acting elements at the -182/-177 (E box) and -108/-104 (CCAAT box) positions were identified as the main activators of the Prnd expression in GC1-spg cells, with NF-Y being the important contributor. The gel-shift experiments confirmed the binding of the transcription factors to -108/-104 NF-Y consensus motif. An intron1 was found to enhance the Prnd expression in bEND.3 endothelial cells, suggesting an involvement of the endothelial-specific enhancer.