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      The Promyelocytic Leukemia Zinc Finger Protein: Two Decades of Molecular Oncology

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          Abstract

          The promyelocytic leukemia zinc finger (PLZF) protein, also known as Zbtb16 or Zfp145, was first identified in a patient with acute promyelocytic leukemia, where a reciprocal chromosomal translocation t(11;17)(q23;q21) resulted in a fusion with the RARA gene encoding retinoic acid receptor alpha. The wild-type Zbtb16 gene encodes a transcription factor that belongs to the POK (POZ and Krüppel) family of transcriptional repressors. In addition to nine Krüppel-type sequence-specific zinc fingers, which make it a member of the Krüppel-like zinc finger protein family, the PLZF protein contains an N-terminal BTB/POZ domain and RD2 domain. PLZF has been shown to be involved in major developmental and biological processes, such as spermatogenesis, hind limb formation, hematopoiesis, and immune regulation. PLZF is localized mainly in the nucleus where it exerts its transcriptional repression function, and many post-translational modifications affect this ability and also have an impact on its cytoplasmic/nuclear dissociation. PLZF achieves its transcriptional regulation by binding to many secondary molecules to form large multi-protein complexes that bind to the regulatory elements in the promoter region of the target genes. These complexes are also capable of physically interacting with its target proteins. Recently, PLZF has become implicated in carcinogenesis as a tumor suppressor gene, since it regulates the cell cycle and apoptosis in many cell types. This review will examine the major advances in our knowledge of PLZF biological activities that augment its value as a therapeutic target, particularly in cancer and immunological diseases.

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          Most cited references78

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          Bmi-1 is required for maintenance of adult self-renewing haematopoietic stem cells.

          A central issue in stem cell biology is to understand the mechanisms that regulate the self-renewal of haematopoietic stem cells (HSCs), which are required for haematopoiesis to persist for the lifetime of the animal. We found that adult and fetal mouse and adult human HSCs express the proto-oncogene Bmi-1. The number of HSCs in the fetal liver of Bmi-1-/- mice was normal. In postnatal Bmi-1-/- mice, the number of HSCs was markedly reduced. Transplanted fetal liver and bone marrow cells obtained from Bmi-1-/- mice were able to contribute only transiently to haematopoiesis. There was no detectable self-renewal of adult HSCs, indicating a cell autonomous defect in Bmi-1-/- mice. A gene expression analysis revealed that the expression of stem cell associated genes, cell survival genes, transcription factors, and genes modulating proliferation including p16Ink4a and p19Arf was altered in bone marrow cells of the Bmi-1-/- mice. Expression of p16Ink4a and p19Arf in normal HSCs resulted in proliferative arrest and p53-dependent cell death, respectively. Our results indicate that Bmi-1 is essential for the generation of self-renewing adult HSCs.
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            Essential role of Plzf in maintenance of spermatogonial stem cells.

            Little is known of the molecular mechanisms whereby spermatogonia, mitotic germ cells of the testis, self-renew and differentiate into sperm. Here we show that Zfp145, encoding the transcriptional repressor Plzf, has a crucial role in spermatogenesis. Zfp145 expression was restricted to gonocytes and undifferentiated spermatogonia and was absent in tubules of W/W(v) mutants that lack these cells. Mice lacking Zfp145 underwent a progressive loss of spermatogonia with age, associated with increases in apoptosis and subsequent loss of tubule structure but without overt differentiation defects or loss of the supporting Sertoli cells. Spermatogonial transplantation experiments revealed a depletion of spermatogonial stem cells in the adult. Microarray analysis of isolated spermatogonia from Zfp145-null mice before testis degeneration showed alterations in the expression profile of genes associated with spermatogenesis. These results identify Plzf as a spermatogonia-specific transcription factor in the testis that is required to regulate self-renewal and maintenance of the stem cell pool.
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              Plzf is required in adult male germ cells for stem cell self-renewal.

              Adult germline stem cells are capable of self-renewal, tissue regeneration and production of large numbers of differentiated progeny. We show here that the classical mouse mutant luxoid affects adult germline stem cell self-renewal. Young homozygous luxoid mutant mice produce limited numbers of normal spermatozoa and then progressively lose their germ line after birth. Transplantation studies showed that germ cells from mutant mice did not colonize recipient testes, suggesting that the defect is intrinsic to the stem cells. We determined that the luxoid mutant contains a nonsense mutation in the gene encoding Plzf, a transcriptional repressor that regulates the epigenetic state of undifferentiated cells, and showed that Plzf is coexpressed with Oct4 in undifferentiated spermatogonia. This is the first gene shown to be required in germ cells for stem cell self-renewal in mammals.
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                Author and article information

                Journal
                Front Oncol
                Front Oncol
                Front. Oncol.
                Frontiers in Oncology
                Frontiers Research Foundation
                2234-943X
                12 June 2012
                17 July 2012
                2012
                : 2
                : 74
                Affiliations
                [1] 1simpleCentre for Cancer Research, Monash Institute of Medical Research, Monash University Melbourne, VIC, Australia
                [2] 2simpleCollege of Applied Medical Sciences, Taibah University Al-Madinah Al-Munawarah, Saudi Arabia
                Author notes

                Edited by: Mike Eccles, University of Otago, New Zealand

                Reviewed by: Ian Morison, University of Otago, New Zealand; Jonathan Licht, Northwestern University Feinberg School of Medicine, USA

                *Correspondence: Bryan Raymond George Williams, Monash Institute of Medical Research, 27-31 Wright Street, Clayton, VIC 3168, Australia. e-mail: bryan.williams@ 123456monash.edu

                This article was submitted to Frontiers in Cancer Genetics, a specialty of Frontiers in Oncology.

                Article
                10.3389/fonc.2012.00074
                3398472
                22822476
                fb9c6c33-35a2-4f6c-a2b6-65776e5aab74
                Copyright © 2012 Suliman, Xu and Williams.

                This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in other forums, provided the original authors and source are credited and subject to any copyright notices concerning any third-party graphics etc.

                History
                : 28 May 2012
                : 27 June 2012
                Page count
                Figures: 3, Tables: 2, Equations: 0, References: 83, Pages: 12, Words: 10469
                Categories
                Oncology
                Review Article

                Oncology & Radiotherapy
                stem cells,cancer,leukemia,cell cycle,plzf,apoptosis,cytokines
                Oncology & Radiotherapy
                stem cells, cancer, leukemia, cell cycle, plzf, apoptosis, cytokines

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