Greg Matlashewski scite author profile

The E6 oncoprotein derived from tumour-associated human papillomaviruses (HPVs) binds to and induces the degradation of the cellular tumour-suppressor protein p53. A common polymorphism that occurs in the p53 amino-acid sequence results in the presence of either a proline or an arginine at position 72. The effect of this polymorphism on the susceptibility of p53 to E6-mediated degradation has been investigated and the arginine form of p53 was found to be significantly more susceptible than the proline form. Moreover, allelic analysis of patients with HPV-associated tumours revealed a striking overrepresentation of homozygous arginine-72 p53 compared with the normal population, which indicated that individuals homozygous for arginine 72 are about seven times more susceptible to HPV-associated tumorigenesis than heterozygotes. The arginine-encoding allele therefore represents a significant risk factor in the development of HPV-associated cancers.

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Two Polymorphic Variants of Wild-Type p53 Differ Biochemically and Biologically

Thomas

Kalita

Labrecque

et al. 1999

Molecular and Cellular Biology

630

532

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The wild-type p53 protein exhibits a common polymorphism at amino acid 72, resulting in either a proline residue (p53Pro) or an arginine residue (p53Arg) at this position. Despite the difference that this change makes in the primary structure of the protein resulting in a difference in migration during sodium dodecyl sulfate-polyacrylamide gel electrophoresis, no differences in the biochemical or biological characteristics of these wild-type p53 variants have been reported. We have recently shown that p53Arg is significantly more susceptible than p53Pro to the degradation induced by human papillomavirus (HPV) E6 protein. Moreover, this may result in an increased susceptibility to HPV-induced tumors in homozygous p53Arg individuals. In further investigating the characteristics of these p53 variants, we now show that both forms are morphologically wild type and do not differ in their ability to bind to DNA in a sequence-specific manner. However, there are a number of differences between the p53 variants in their abilities to bind components of the transcriptional machinery, to activate transcription, to induce apoptosis, and to repress the transformation of primary cells. These observations may have implications for the development of cancers which harbor wild-type p53 sequences and possibly for the ability of such tumors to respond to therapy, depending on their p53 genotype.

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Primary structure polymorphism at amino acid residue 72 of human p53.

Matlashewski¹,

Tuck²,

Pim³

et al. 1987

Mol. Cell. Biol.

444

273

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CRISPR-Cas9-Mediated Genome Editing in Leishmania donovani

Zhang

Matlashewski

2015

mBio

162

226

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The prokaryotic CRISPR (clustered regularly interspaced short palindromic repeat)-Cas9, an RNA-guided endonuclease, has been shown to mediate efficient genome editing in a wide variety of organisms. In the present study, the CRISPR-Cas9 system has been adapted to Leishmania donovani, a protozoan parasite that causes fatal human visceral leishmaniasis. We introduced the Cas9 nuclease into L. donovani and generated guide RNA (gRNA) expression vectors by using the L. donovani rRNA promoter and the hepatitis delta virus (HDV) ribozyme. It is demonstrated within that L. donovani mainly used homology-directed repair (HDR) and microhomology-mediated end joining (MMEJ) to repair the Cas9 nuclease-created double-strand DNA break (DSB). The nonhomologous end-joining (NHEJ) pathway appears to be absent in L. donovani. With this CRISPR-Cas9 system, it was possible to generate knockouts without selection by insertion of an oligonucleotide donor with stop codons and 25-nucleotide homology arms into the Cas9 cleavage site. Likewise, we disrupted and precisely tagged endogenous genes by inserting a bleomycin drug selection marker and GFP gene into the Cas9 cleavage site. With the use of Hammerhead and HDV ribozymes, a double-gRNA expression vector that further improved gene-targeting efficiency was developed, and it was used to make precise deletion of the 3-kb miltefosine transporter gene (LdMT). In addition, this study identified a novel single point mutation caused by CRISPR-Cas9 in LdMT (M381T) that led to miltefosine resistance, a concern for the only available oral antileishmanial drug. Together, these results demonstrate that the CRISPR-Cas9 system represents an effective genome engineering tool for L. donovani.

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Regulation of Human p53 Activity and Cell Localization by Alternative Splicing

Ghosh

Stewart

Matlashewski

2004

Molecular and Cellular Biology

189

213

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The development of cancer is a multistep process involving mutations in proto-oncogenes, tumor suppressor genes, and other genes which control cell proliferation, telomere stability, angiogenesis, and other complex traits. Despite this complexity, the cellular pathways controlled by the p53 tumor suppressor protein are compromised in most, if not all, cancers. In normal cells, p53 controls cell proliferation, senescence, and/or mediates apoptosis in response to stress, cell damage, or ectopic oncogene expression, properties which make p53 the prototype tumor suppressor gene. Defining the mechanisms of regulation of p53 activity in normal and tumor cells has therefore been a major priority in cell biology and cancer research. The present study reveals a novel and potent mechanism of p53 regulation originating through alternative splicing of the human p53 gene resulting in the expression of a novel p53 mRNA. This novel p53 mRNA encodes an N-terminally deleted isoform of p53 termed p47. As demonstrated within, p47 was able to effectively suppress p53-mediated transcriptional activity and impair p53-mediated growth suppression. It was possible to select for p53-null cells expressing p47 alone or coexpressing p53 in the presence of p47 but not cells expressing p53 alone. This showed that p47 itself does not suppress cell viability but could control p53-mediated growth suppression. Interestingly, p47 was monoubiquitinated in an Mdm2-independent manner, and this was associated with its export out of the nucleus. In the presence of p47, there was a reduction in Mdm2-mediated polyubiquitination and degradation of p53, and this was also associated with increased monoubiquitination and nuclear export of p53. The expression of p47 through alternative splicing of the p53 gene thus has a major influence over p53 activity at least in part through controlling p53 ubiquitination and cell localization.

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Isolation of human‐p53‐specific monoclonal antibodies and their use in the studies of human p53 expression

Banks¹,

Matlashewski²,

Crawford³

1986

European Journal of Biochemistry

456

211

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The isolation and construction of a complete human p53 cDNA and subsequent expression in monkey cells is described. A set of new anti-(human p53) monoclonal antibodies has also been obtained and used to show the expression of the human p53 cDNA in cos-1 cells. These antibodies enable the specific detection of human p53, which is synthesised in the presence of p53 from other species. Fusion proteins of p53 with j-galactosidase were used firstly as antigen and secondly, in conjunction with competition assays, to localise the determinants recognised by the antibodies. At least two previously unrecognised epitopes are involved and two of the antibodies are human-p53-specific. The epitopes are denaturation-resistant and the antibodies are, therefore, valuable for immunoblotting as well as immunoprecipitation and enzyme-linked immunoassay. Transfection of plasmids containing complete human p53 cDNA into monkey (cos-I) cells cause expression of human p53 recognised by the monoclonal antibodies. Control plasmids did not induce immunoreactive protein.

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Immune Responses Induced by theLeishmania(Leishmania)donovaniA2 Antigen, but Not by the LACK Antigen, Are Protective against ExperimentalLeishmania(Leishmania)amazonensisInfection

Coelho¹,

Tavares²,

Carvalho³

et al. 2003

Infect Immun

207

193

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Leishmania amazonensis is one of the major etiologic agents of a broad spectrum of clinical forms of leishmaniasis and has a wide geographical distribution in the Americas, which overlaps with the areas of transmission of many other Leishmania species. The LACK and A2 antigens are shared by various Leishmania species. A2 was previously shown to induce a potent Th1 immune response and protection against L. donovani infection in BALB/c mice. LACK is effective against L. major infection, but no significant protection against L. donovani infection was observed, in spite of the induction of a potent Th1 immune response. In an attempt to select candidate antigens for an American leishmaniasis vaccine, we investigated the protective effect of these recombinant antigens (rLACK and rA2) and recombinant interleukin-12 (rIL-12) against L. amazonensis infection in BALB/c mice. As expected, immunization with either rA2-rIL-12 or rLACK-rIL-12 induced a robust Th1 response prior to infection. However, only the BALB/c mice immunized with rA2-rIL-12 were protected against infection. Sustained gamma interferon (IFN-γ) production, high levels of anti-A2 antibodies, and low levels of parasite-specific antibodies were detected in these mice after infection. In contrast, mice immunized with rLACK-rIL-12 displayed decreased levels of IFN-γ and high levels of both anti-LACK and parasite-specific antibodies. Curiously, the association between rA2 and rLACK antigens in the same vaccine completely inhibited the rA2-specific IFN-γ and humoral responses and, consequently, the protective effect of the rA2 antigen against L. amazonensis infection. We concluded that A2, but not LACK, fits the requirements for a safe vaccine against American leishmaniasis

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Human papillomavirus type 16 DNA cooperates with activated ras in transforming primary cells.

Matlashewski¹,

Schneider²,

Banks³

et al. 1987

The EMBO Journal

324

181

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The close association of human papillomavirus type 16 DNA with a majority of cervical carcinomas implies some role for the virus in this type of cancer. To define the transforming properties of HPV-16 DNA in vitro we have now performed transfection experiments on baby rat kidney cells using HPV-16 DNA in conjunction with an activated ras gene. We have demonstrated that a 6.6-kb DNA fragment, containing the early genes of HPV-16 under the control of Moloney murine leukaemia virus long terminal repeats (MoMuLV-LTRs), cooperates with EJ-ras in transforming these cells. Both DNAs are required and neither alone is effective. The cooperating activity appears to reside in a protein or proteins derived from the E6/E7 region of the HPV-16 genome.

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