Targeting the Acute Promyelocytic Leukemia-Associated Fusion Proteins PML/RARα and PLZF/RARα with Interfering Peptides

In acute promyelocytic leukemia (APL), hematopoietic differentiation is blocked and immature blasts accumulate in the bone marrow and blood. APL is associated with chromosomal aberrations, including t(15;17) and t(11;17). For these two translocations, the retinoic acid receptor alpha (RARα) is fused to the promyelocytic leukemia (PML) gene or the promyelocytic zinc finger (PLZF) gene, respectively. Both fusion proteins lead to the formation of a high-molecular-weight complex. High-molecular-weight complexes are caused by the “coiled-coil” domain of PML or the BTB/POZ domain of PLZF. PML/RARα without the “coiled-coil” fails to block differentiation and mediates an all-trans retinoic acid-response. Similarly, mutations in the BTB/POZ domain disrupt the high-molecular-weight complex, abolishing the leukemic potential of PLZF/RARα. Specific interfering polypeptides were used to target the oligomerization domain of PML/RARα or PLZF/RARα. PML/RARα and PLZF/RARα were analyzed for the ability to form high-molecular-weight complexes, the protein stability and the potential to induce a leukemic phenotype in the presence of the interfering peptides. Expression of these interfering peptides resulted in a reduced replating efficiency and overcame the differentiation block induced by PML/RARα and PLZF/RARα in murine hematopoietic stem cells. This expression also destabilized the PLZF/RARα-induced high-molecular-weight complex formation and caused the degradation of the fusion protein. Targeting fusion proteins through interfering peptides is a promising approach to further elucidate the biology of leukemia.     

RARα mRNA和RARβ mRNA在过量RA致神经管畸形发生中的表达

目的探讨过量RA对金黄地鼠胚胎神经管RARα和RARβ mRNA表达的影响。方法采用原位杂交及图像分析,半定量分析正常及RA致畸金黄地鼠胚胎神经管中RARα和RARβ mRNA表达水平的变化。结果过量RA可使RARα和RARβ mRNA在金黄地鼠神经管中的表达水平呈现短时下降,随后又大幅上升的变化。结论过量RA引起的RARα和RARβ mRNA表达水平的变化与RA致金黄地鼠神经管畸形相关。     

RARα and RARγ reciprocally control K5+ progenitor cell expansion in developing salivary glands

Understanding the mechanisms of controlled expansion and differentiation of basal progenitor cell populations during organogenesis is essential for developing targeted regenerative therapies. Since the cytokeratin 5-positive (K5⁺) basal epithelial cell population in the salivary gland is regulated by retinoic acid signaling, we interrogated how isoform-specific retinoic acid receptor (RAR) signaling impacts the K5⁺ cell population during salivary gland organogenesis to identify RAR isoform-specific mechanisms that could be exploited in future regenerative therapies. In this study, we utilized RAR isoform-specific inhibitors and agonists with murine submandibular salivary gland organ explants. We determined that RARα and RARγ have opposing effects on K5⁺ cell cycle progression and cell distribution. RARα negatively regulates K5⁺ cells in both whole organ explants and in isolated epithelial rudiments. In contrast, RARγ is necessary but not sufficient to positively maintain K5⁺ cells, as agonism of RARγ alone failed to significantly expand the population. Although retinoids are known to stimulate differentiation, K5 levels were not inversely correlated with differentiated ductal cytokeratins. Instead, RARα agonism and RARγ inhibition, corresponding with reduced K5, resulted in premature lumenization, as marked by prominin-1. With lineage tracing, we demonstrated that K5⁺ cells have the capacity to become prominin-1⁺ cells. We conclude that RARα and RARγ reciprocally control K5⁺ progenitor cells endogenously in the developing submandibular salivary epithelium, in a cell cycle-dependent manner, controlling lumenization independently of keratinizing differentiation. Based on these data, isoform-specific targeting RARα may be more effective than pan-RAR inhibitors for regenerative therapies that seek to expand the K5⁺ progenitor cell pool. Summary statement: RARα and RARγ reciprocally control K5⁺ progenitor cell proliferation and distribution in the developing submandibular salivary epithelium in a cell cycle-dependent manner while regulating lumenization independently of keratinizing differentiation.     

Recent advances in the design of RAR α and RAR β agonists as orally bioavailable drugs. A review

Retinoic acid receptors (RARs) α, β, and γ are members of the nuclear receptor superfamily. Compounds which bind to and activate the RARs are termed retinoids which regulate a wide variety of biological processes such as vertebrate embryonic morphogenesis and organogenesis, cell growth arrest, differentiation, and apoptosis, as well as their disorders. Although many synthetic selective RARα, RARβ, and RARγ agonists have been designed and prepared, these have generally been lipophilic acids without good drug-like properties and with low oral bioavailability. Recently this has been changing and drug design approaches to highly potent and selective RARα and RARβ agonists with low lipophilicity that are orally bioavailable and less toxic have been developed, that have a range of potential therapeutic uses. This review covers these new advances.     

RARβ在胃癌细胞生长调节中的作用

为探讨 RARβ受体介导全反式视黄酸 ( ATRA)抑制胃癌细胞生长的作用机理 ,用 Northern印迹测定 RARβ m RNA表达水平 ,脂质体介导的转染方法将含有 RARβ基因的表达载体转染MKN- 45细胞并稳定表达 ,MTT和软琼脂集落形成等实验测定细胞生长速率和生长状态 ,氯霉素乙酰转移酶活性 ( CAT)测定视黄酸应答元件βRARE的转录活性以及 AP- 1 ( activator protein- 1 )活性 .RARβ在 ATRA敏感细胞株 MGC80 - 3、BGC- 82 3和 SGC- 790 1中表达 ,而在 ATRA抗性细胞株 MKN- 45中不表达 .当 RARβ基因转染 MKN- 45细胞时 ,细胞变为 ATRA敏感 ,由此导致ATRA抑制 MKN- 45细胞生长和软琼脂集落形成 .ATRA可以加强诱导 MGC80 - 3、BGC- 82 3和SGC- 790 1细胞βRARE的转录活性 ,但对 MKN- 45细胞影响不大 ,不能抑制细胞 AP- 1活性 .当RARβ基因转染 MKN- 45细胞后 ,ATRA则能够诱导细胞 βRARE的转录活性 ,并抑制细胞的 AP-1活性 .RARβ表达与 ATRA抑制胃癌细胞生长密切相关 .ATRA诱导 βRARE转录活性和抑制AP- 1活性可能是其调控胃癌细胞生长的机制之一 .     

Detection of variable levels of RAR�� and RAR�� proteins in pluripotent and differentiating mouse embryonal carcinoma and mouse embryonic stem cells

Pluripotent mouse embryonal carcinoma (mEC) and mouse embryonic stem (mES) cells differentiate into several cell lineages upon retinoic acid (RA) addition. Differentiation is facilitated, in part, by RA activation of nuclear RA receptors (RARs) that bind to DNA response elements located in the promoters of target genes. The purpose of the studies reported here was to immunolocalize RARα and RARγ protein in mEC and mES cells and in their RA-induced differentiated progeny. Fixed cells were reacted with three different RARα antibodies and one RARγ antibody. Pluripotent and differentiated mEC and mES cells showed positive nuclear immunoreactivity with all antibodies tested. Two RARα antibodies also showed positive reactivity in the cytoplasm. Surprisingly, our results revealed variability in immunofluorescence intensity and in RARα and RARγ distribution from one cell to the other, suggesting that RARα and RARγ protein levels were not synchronous throughout the cell population. The results indicate that RARα and RARγ are present in pluripotent and differentiating mEC and mES cells and suggest that the expression of these proteins is dynamic.     

HDAC2 phosphorylation-dependent Klf5 deacetylation and RARα acetylation induced by RAR agonist switch the transcription regulatory programs of p21 in VSMCs

Abnormal proliferation of vascular smooth muscle cells (VSMCs) occurs in hypertension, atherosclerosis and restenosis after angioplasty, leading to pathophysiological vascular remodeling. As an important growth arrest gene, p21 plays critical roles in vascular remodeling. Regulation of p21 expression by retinoic acid receptor (RAR) and its ligand has important implications for control of pathological vascular remodeling. Nevertheless, the mechanism of RAR-mediated p21 expression in VSMCs remains poorly understood. Here, we show that, under basal conditions, RARα forms a complex with histone deacetylase 2 (HDAC2) and Krüppel-like factor 5 (Klf5) at the p21 promoter to inhibit its expression. Upon RARα agonist stimulation, HDAC2 is phosphorylated by CK2α. Phosphorylation of HDAC2, on the one hand, promotes its dissociation from RARα, thus allowing the liganded-RARα to interact with co-activators; on the other hand, it increases its interaction with Klf5, thus leading to deacetylation of Klf5. Deacetylation of Klf5 facilitates its dissociation from the p21 promoter, relieving its repressive effect on the p21 promoter. Interference with HDAC2 phosphorylation by either CK2α knockdown or the use of phosphorylation-deficient mutant of HDAC2 prevents the dissociation of Klf5 from the p21 promoter and impairs RAR agonist-induced p21 activation. Our results reveal a novel mechanism involving a phosphorylation-deacetylation cascade that functions to remove the basal repression complex from the p21 promoter upon RAR agonist treatment, allowing for optimum agonist-induced p21 expression.     

胃癌细胞中AP-1活性与RARα介导的相关性

为确定全反式视黄酸 ( ATRA)抑制胃癌细胞 AP- 1活性过程中 RARα介导的作用机理 ,利用 Northern印迹和 Western印迹测定 RARα基因和 c Jun、c Fos蛋白表达水平 ;氯霉素乙酰转移酶活性 ( CAT)分析 AP- 1活性 ;以及 MTT法检测细胞生长速率 .结果表明 ,ATRA能够诱导 RARα表达 ,抑制 c Jun和 c Fos蛋白表达和 AP- 1活性 ,由此导致胃癌细胞生长抑制 .结果证实 ,ATRA抑制胃癌细胞 AP- 1活性是抑制细胞生长的重要途径之一 ,并与 RARα介导密切相关 .     

Retinoic acid receptor isoform RARγ 1: an antagonist of the transactivation of the RARβ RARE in epithelial cell lines and normal human keratinocytes

The diversity of isoforms of retinoic acid (RA) receptors (RARs) and of DNA sequences of retinoic acid-responsive elements (RAREs) suggests the existence of selectivities in the RAR/RARE recognition or in the subsequent gene modulation. Such selectivities might be particularly important for RAREs involved in positive feedback, eg. the RAR RARE. In the present work we found that in several epithelial cell lines, reporter constructs containing the RAR RARE linked to the HSV-tk promoter were transactivated in the presence of RA by endogenous RARs and co-transfected RAR₁ and RAR₂ isoforms, but not by RAR₁. On the contrary, this latter isoform behaved towards the RAR RARE as an inhibitor of the transactivation produced by endogenous RARs and by cotransfected RAR₁ and RAR₂. RAR₁ also behaved as an antagonist of the transactivation produced by cotransfected RXR. The natural RAR gene promoter or RAR RARE tk constructs were not activated by the endogenous receptors of normal human keratinocytes (NHK), which are known to contain predominantly RAR₁. It was, however, possible to activate to a certain extent RAR RARE-reporter constructs in NHK by co-transfecting RAR₁, RAR₂ or RXR. The antagonist behavior of RAR₁ towards the RAR RARE may explain why in certain cell types such as keratinocytes, RAR is neither expressed nor induced by RA.Abbreviations DMEM Dulbecco's modified Eagle medium - DMSO dimethyl sulfoxide - FCS fetal calf serum - MEM minimal Eagle medium - NHK normal human keratinocyte - RA retinoic acid - RAR retinoic acid receptor - RARE retinoic acid responsive element - TRE thyroid responsive element - VDRE vitamin D response element - RXR retinoid X receptor     

Design of a sandwich-mode amperometric biosensor for detection of PML/RARα fusion gene using locked nucleic acids on gold electrode

In this study, a novel DNA electrochemical probe (locked nucleic acid, LNA) was designed and involved in constructing an electrochemical DNA biosensor for detection of promyelocytic leukemia/retinoic acid receptor alpha (PML/RARα) fusion gene in acute promyelocytic leukemia for the first time. This biosensor was based on a 'sandwich' sensing mode, which involved a pair of LNA probes (capture probe immobilized at electrode surface and biotinyl reporter probe as an affinity tag for streptavidin-horseradish peroxidase (streptavidin-HRP). Since biotin can be connected with streptavidin-HRP, this biosensor offered an enzymatically amplified electrochemical current signal for the detection of target DNA. In the simple hybridization system, DNA fragment with its complementary DNA fragment was evidenced by amperometric detection, with a detection limit of 74 fM and a linear response range of 0.1-10 pM for synthetic PML/RARα fusion gene in acute promyelocytic leukemia (APL). Otherwise, the biosensor showed an excellent specificity to distinguish the complementary sequence and different mismatch sequences. The new pattern also exhibited high sensitivity and selectivity in mixed hybridization system.     

An RXR-Selective Analog Attenuates the RARα-Selective Analog-Induced Differentiation and Non-G1-Restricted Growth Arrest of NB4 Cells

NB4, a human acute promyelocytic leukemia cell line expressing the promyelocyte–retinoic acid receptor α (PML–RARα) hybrid protein was treated with RAR- and retinoid X receptor (RXR)-selective analogs to determine their effects on cell proliferation, retinoblastoma (RB) tumor-suppressor protein phosphorylation, and differentiation. An RAR- or just RARα-selective analog alone induced similar cell population growth arrest, cell cycle arrest without restriction to G₁, hypophosphorylation of RB, and myelomonocytic cell surface differentiation marker expression (CD11b). In addition, an RARα antagonist could inhibit the effects of the RARα agonist completely. The RARα-selective analog-elicited response was attenuated by simultaneous addition of various RXR-selective analogs. In contrast, each of the RXR-selective analogs was unable to induce any of the cellular responses analyzed. The growth arrest of NB4 cells is not G₁-restricted and occurs at all points in the cell cycle. Cells growth arrested by treatment with an RARα-selective analog show primarily hypophosphorylated RB. When these cells are sorted into G₁or S + G₂/M subpopulations by flow cytometry, hypophosphorylated RB protein was in G₁as well as S + G₂/M cells. This suggests that the hypophosphorylated RB protein may be mediating the growth arrest of NB4 cells at all points in the cell cycle. These results are consistent with an involvement of PML–RARα and/or RARα in the transduction of the retinoid signal in NB4 cells.