Kwesi Teye

A novel myc target gene, Mina53, that is involved in cell proliferation

Myc is a ubiquitous mediator of cell proliferation and can transactivate the expression of various genes through E-box sites. Here we report a novel gene, mina53(Myc-inducednuclear antigen with a molecular mass of 53 kDa). The mina53 gene encodes a protein with a molecular weight of 53 kDa, which is localized in the nucleus and with part of the protein concentrated in the nucleolus. When serum-starved cells were activated by serum, the level of c-myc mRNA was elevated, and an increase in mina53 mRNA followed the elevation of c-myc mRNA. When expression of c-myc was reduced in human promyelocytic leukemia HL60 cells by phorbol 12-myristate 13-acetate, the expression ofmina53 mRNA and protein was reduced. The expression ofmina53 mRNA and Mina53 protein was induced by ectopic introduction of wild type c-Myc but not by a mutant c-Myc lacking the transactivation domain. When c-Myc in the c-MycER chimeric protein was activated, mina53 mRNA was increased, even in the presence of an inhibitor for protein synthesis. E-box sites are present in a region proximal to the transcription initiation sites of themina53 gene. The gene expression from themina53 promoter was elevated by c-Myc through E-box sites. c-Myc protein bound to the mina53 promoter region in vivo in HL60 cells in the proliferating phase but not after treatment of cells with phorbol 12-myristate 13-acetate. Specific inhibition of mina53 expression by an RNA interference method severely suppressed cell proliferation. Taken together, these results indicate that mina53 is a direct target gene of Myc, suggesting that mina53 is involved in mammalian cell proliferation.

JmjC enzyme KDM2A is a regulator of rRNA transcription in response to starvation

The rate‐limiting step in ribosome biogenesis is the transcription of ribosomal RNA, which is controlled by environmental conditions. The JmjC enzyme KDM2A/JHDM1A/FbxL11 demethylates mono‐ and dimethylated Lys 36 of histone H3, but its function is unclear. Here, we show that KDM2A represses the transcription of ribosomal RNA. KDM2A was localized in nucleoli and bound to the ribosomal RNA gene promoter. Overexpression of KDM2A repressed the transcription of ribosomal RNA in a demethylase activity‐dependent manner. When ribosomal RNA transcription was reduced under starvation, a cell‐permeable succinate that inhibited the demethylase activity of KDM2A prevented the reduction of ribosomal RNA transcription. Starvation reduced the levels of mono‐ and dimethylated Lys 36 of histone H3 marks on the rDNA promoter, and treatment with the cell‐permeable succinate suppressed the reduction of the marks during starvation. The knockdown of KDM2A increased mono‐ and dimethylated Lys 36 of histone H3 marks, and suppressed the reduction of ribosomal RNA transcription under starvation. These results show a novel mechanism by which KDM2A activity is stimulated by starvation to reduce ribosomal RNA transcription.

Increased Expression of a Myc Target Gene Mina53 in Human Colon Cancer

Mina53 is a novel Myc target gene that we previously demonstrated to be involved in cell proliferation. We studied, here, the expression of Mina53 in colon cancer to examine its possible role in carcinogenesis. We generated a specific monoclonal anti-human Mina53 antibody and found that colon tumor cell lines expressed Mina53 highly. We also found that expression of Mina53 was elevated in colon tumor tissues by immunoblotting analysis. Tissue sections of 23 surgical cases of adenocarcinoma and 1 case of adenoma were stained immunohistochemically, and the expression of Mina53 was found to be elevated in all of the adenocarcinomas compared to adjacent nonneoplastic tissues, which showed little staining. Deeply invading tumors as well as tumors that have invaded lymphatic vessels showed strong immunoreactivity against anti-Mina53 antibody. Mina53 was expressed in all pathological grades of cancer as well as in the adenoma. Staining patterns of Ki-67, a biomarker for cell proliferation, were similar to those of Mina53 in most cases, but the percentage of tumor cells stained by anti-Mina53 was higher. Although anti-Ki-67 antibody strongly stained some well-proliferating nonneoplastic cells including cells in the deeper part of the crypts and in lymphoid germinal centers, antibody to Mina53 rarely stained those cells. Suppression of mina53 expression severely suppressed proliferation of colon tumor cells in vitro. Together, our results indicate that the elevated expression of Mina53 is a characteristic feature in colon cancer, one that may have therapeutic applications.

Mina53 as a Potential Prognostic Factor for Esophageal Squamous Cell Carcinoma

Purpose: We previously identified mina53, a novel Myc target gene. Here we investigated whether mina53 is related to esophageal squamous cell carcinoma (ESCC), a disease with poor prognosis. Experimental Design: Mina53 expression was suppressed in ESCC cell lines by a RNA interference method to investigate whether Mina53 is involved in cell proliferation. Expression of Mina53 was investigated by Western blotting in tissue sections from patients with ESCC. Immunohistochemical analysis of Mina53 was carried out and compared with that using anti–Ki-67 antibody. Finally, the level of Mina53 expression was compared with the length of survival of patients with ESCC. Results: Reduction of mina53 expression by RNA interference suppressed cell proliferation in ESCC cell lines. Western blot analysis of surgically resected ESCC specimens indicated that the expression of Mina53 in tumors was increased compared with that in adjacent nonneoplastic tissues in all four specimens examined. When formalin-fixed specimens from 52 patients with ESCC were stained immunohistochemically, it was found that Mina53 was highly expressed in 83% of specimens. Anti-Mina53 antibody stained tumors more efficiently than antibody against Ki-67, a cell proliferation biomarker, in some cancer specimens. Patients with high expression of Mina53 had shorter survival periods, whereas the expression level of Ki-67 in ESCC showed no relationship to patient outcome. Conclusions: Taken together, our results indicate that expression of Mina53 is a characteristic feature of ESCC and suggest that immunostaining by anti-Mina53 antibody may be useful as a potential prognostic indicator.

A-61C and C-101G Hp gene promoter polymorphisms are, respectively, associated with ahaptoglobinaemia and hypohaptoglobinaemia in Ghana.

We have investigated the genetic basis for the Hp0 phenotype amongst 123 randomly selected Ghanaians. A total of 17 individuals were determined to be Hp0 phenotype, based on the classical method for Hp phenotyping of Hb‐supplemented plasma. Out of the 17 Hp0 individuals, nine subjects were further classified as ahaptoglobinaemic and eight as hypohaptoglobinaemic by Western blots and double immunodiffusion. We identified three previously known base substitutions (A−55G, A−61C and T−104A) and three new ones (C−101G, T−191G and C−242T) within the 5′ flanking region of the Hp gene. The A−61C base substitution significantly decreased transcriptional activity and was associated strongly with Hp2 allele and ahaptoglobinaemia. The C−101G substitution was similar in transcriptional activity to the wild‐type and was associated with Hp1S allele and hypohaptoglobinaemia. The Hpdel allele seen in Asian populations was absent. We conclude that the Hp0 phenotype in Ghana has a genetic basis that differs significantly from that seen in Asia.

Anti-desmocollin autoantibodies in nonclassical pemphigus.

Despite the established pathogenic role of anti‐desmoglein (Dsg) antibodies in classical pemphigus, the significance of autoantibodies to another desmosomal cadherin, desmocollin (Dsc) is at present unknown. No consistent immunoassay for immunoglobulin (Ig) G autoantibodies to Dscs has been developed.

Clinical and immunological findings in 104 cases of paraneoplastic pemphigus

Although there are many reports of sporadic patients with paraneoplastic pemphigus (PNP), only a few systematic studies on large cohorts of patients with PNP have been reported.

How do keratinizing disorders and blistering disorders overlap

Inherited keratinizing disorders are caused by mutations in the genes encoding cornified cell envelope proteins, enzymes and their inhibitors, adhesion molecules, cytoskeletal proteins and others in the epidermis. These molecules are known to regulate differentiation, proliferation and cell adhesions. Intriguingly, some keratinizing disorders show blistering skin lesions, while some inherited blistering disorders show abnormal keratinization. Therefore, hereditary keratinizing and blistering diseases are closely related and show overlapping genetic backgrounds. In this review, we overviewed keratinizing and blistering disorders in terms of overlapping of the two disease groups. Gene mutations in desmosomal components cause striate keratoderma, Naxos disease, epidermolytic palmoplantar keratoderma and plakophilin deficiency, which first show skin fragility and blisters and later hyperkeratosis. Gene mutations in hemidesmosomal components cause various forms of epidermolysis bullosa, some of which show hyperkeratosis on the nails, palms and soles, in addition to blister formation. Diseases with gene mutations in calcium pump proteins are Darier disease and Hailey–Hailey disease, which show clinicopathological overlaps and develop both keratinizing and blistering skin lesions. Finally, gene mutations in epidermal keratins cause epidermolysis bullosa simplex, epidermolytic ichthyosis, superficial epidermolytic ichthyosis, epidermolytic palmoplantar keratoderma and pachyonychia congenita/focal palmoplantar keratoderma, which show thickening of the palms and soles with underlying blister formation. In general, responsible proteins for diseases developing both keratinizing and blistering conditions are adhesion molecules, calcium pump proteins and keratins, but not connexins, cornified cell envelop proteins, enzymes or inhibitors. It is still unknown how particular keratinizing diseases develop blisters and vice versa.

Anti-Alpha-2-Macroglobulin-Like-1 Autoantibodies Are Detected Frequently and May Be Pathogenic in Paraneoplastic Pemphigus

Paraneoplastic pemphigus (PNP) shows autoantibodies mainly to plakin and desmosomal cadherin family proteins. We have recently identified alpha-2-macroglobulin-like-1 (A2ML1), a broad range protease inhibitor, as a unique PNP antigen. In this study, we tested a large number of PNP sera by various methods. Forty (69.0%) of 58 PNP sera recognized A2ML1 recombinant protein expressed in COS7 cells by immunofluorescence (IF) and/or immunoprecipitation (IP)/immunoblotting (IB). IP/IB showed higher sensitivity than IF. In addition, 22 (37.9%) PNP sera reacted with A2ML1 by IB of cultured normal human keratinocytes (NHKs) under non-reducing conditions. Statistical analyses using various clinical and immunological data showed that the presence of anti-A2ML1 autoantibodies was associated with early disease onset and absence of ocular lesions. Next, to investigate the pathogenic role of anti-A2ML1 antibody, we performed additional functional studies. Addition of anti-A2ML1 polyclonal antibody to culture media decreased NHK cell adhesion examined by dissociation assay, and increased plasmin activity detected by casein zymography, suggesting that anti-A2ML1 antibody may decrease NHK cell adhesion through plasmin activation by inhibition of A2ML1. This study demonstrates that autoantibodies to A2ML1 are frequently and specifically detected and may have a pathogenic role in PNP.

Haptoglobin Gene Promoter Polymorphism and Haplotypes Are Unique in Different Populations

ABSTRACT We investigated the distribution of haptoglobin (HP) alleles and haplotypes among Africans (Ghanaians), Europeans (from South Africa), and Chinese. HP*1F was present only in Africans and Europeans, whereas HP*del was unique to Chinese. Six base substitutions at the promoter region were population specific. Only 3 out of 18 haplotypes were shared among the populations. A probable application of HP in human population genetics appears legitimate.