Kenneth Mitton

Publications (35) View all

• Article: Epigenetic regulatory mechanisms in vertebrate eye development and disease.

  A Cvekl, K P Mitton
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  ABSTRACT: Eukaryotic DNA is organized as a nucleoprotein polymer termed chromatin with nucleosomes serving as its repetitive architectural units. Cellular differentiation is a dynamic process driven by activation and repression of specific sets of genes, partitioning the genome into transcriptionally active and inactive chromatin domains. Chromatin architecture at individual genes/loci may remain stable through cell divisions, from a single mother cell to its progeny during mitosis, and represents an example of epigenetic phenomena. Epigenetics refers to heritable changes caused by mechanisms distinct from the primary DNA sequence. Recent studies have shown a number of links between chromatin structure, gene expression, extracellular signaling, and cellular differentiation during eye development. This review summarizes recent advances in this field, and the relationship between sequence-specific DNA-binding transcription factors and their roles in recruitment of chromatin remodeling enzymes. In addition, lens and retinal differentiation is accompanied by specific changes in the nucleolar organization, expression of non-coding RNAs, and DNA methylation. Epigenetic regulatory mechanisms in ocular tissues represent exciting areas of research that have opened new avenues for understanding normal eye development, inherited eye diseases and eye diseases related to aging and the environment.
  Heredity 02/2010; 105(1):135-51. · 4.60 Impact Factor
• Source

  Available from: Raghuveer Singh Mali

  Article: FIZ1 is part of the regulatory protein complex on active photoreceptor-specific gene promoters in vivo.

  Raghuveer S Mali, Guang-Hua Peng, Xiao Zhang, Loan Dang, Shiming Chen, Kenneth P Mitton
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  ABSTRACT: FIZ1 (Flt-3 Interacting Zinc-finger) is a broadly expressed protein of unknown function. We reported previously that in the mammalian retina, FIZ1 interacts with NRL (Neural-Retina Leucine-zipper), an essential transcriptional activator of rod photoreceptor-specific genes. The concentration of FIZ1 in the retina increases during photoreceptor terminal maturation, when two key transcription factors NRL and CRX (Cone-Rod Homeobox) become detectable on the promoters of photoreceptor-specific genes (i.e. Rhodopsin, Pde6b). To determine if FIZ1 is involved in regulating CRX-mediated transcriptional activation, we examined FIZ1 subcellular location in mouse neural retina, its ability to interact with CRX, and its association with CRX/NRL target genes. FIZ1 is present in the nucleus of adult photoreceptors as well as other retinal neurons as shown by transmission electron microscopy with nano-gold labeling. FIZ1 and CRX were co-precipitated from retinal nuclear extracts with antibodies to either protein. Chromatin immunoprecipitation (ChIP) assays revealed that FIZ1 is part of the protein complex on several rod and cone gene promoters, within photoreceptor cells of the mouse retina. FIZ1 complexes with CRX or NRL on known NRL- and CRX-responsive elements, as shown by electrophoretic mobility shift assays with FIZ1 antibody. FIZ1 can directly bind to CRX, as demonstrated using yeast two-hybrid and GST pull-down assays. Co-transfection assays demonstrated that FIZ1 increases CRX-mediated activation of Opsin test promoters. Quantitative ChIP analysis revealed an increased association of FIZ1 with the Rhodopsin promoter in adult (P-25) neural retina versus immature (P-3) neural retina. The quantity of transcriptionally active RNA Polymerase-II within the Rhodopsin gene (Rho) was significantly increased in the adult neural retina, compared to the immature retina. FIZ1 directly interacts with CRX to enhance CRX's transactivation activity for target genes. Developmentally, in neural retina tissue, the increased association of FIZ1 with CRX target genes corresponds to an increased association of transcriptionally active Pol-II within the Rho gene. Together with previous findings, our results suggest that FIZ1 may act as a transcriptional co-regulator of photoreceptor-specific genes, recruited by at least two photoreceptor-specific transcription factors, CRX and NRL. Further studies are underway to elucidate the exact role of FIZ1 in photoreceptor gene expression, development and maintenance.
  BMC Molecular Biology 11/2008; 9:87. · 2.86 Impact Factor
• Source

  Available from: Kenneth Mitton

  Article: Three distinct stages of lens opacification in transgenic mice expressing the HIV-1 protease.

  S J Tumminia, J I Clark, D M Richiert, K P Mitton, Y Duglas-Tabor, J A Kowalak, D L Garland, P Russell
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  ABSTRACT: Scanning electron microscopy of the lenses from transgenic mice (TG(72)) containing the HIV-1 protease linked to the lens alphaA-crystallin promoter showed structural changes around postnatal day 16. Frank opacification of the lens was observed at day 24. To relate the biochemical and biophysical changes that occur during the process of cataract development, high-resolution two-dimensional gel electrophoresis (2D), quantitative image analysis and ion measurements were carried out on lenses from postnatal day 10 and on days 15-24. The phase separation temperature (Tc), a measure of molecular interactions between proteins, was also determined for normal and transgenic lenses. A comparison of the transgenic and normal lenses on day 10 revealed no significant differences in any of the measured parameters. However, starting around day 16 or the first stage of observed structural changes, the TG(72)crystallin profiles of the alphaA- alphaB-, betaA3-, betaA4-, betaB3 and one gamma-crystallin began to deviate from the normal. By postnatal day 20, a second stage was initiated with an influx of calcium and sodium ions that was accompanied by modifications of betaB1- and betaB2-crystallin. In the third and final stage of the cataract process, a large increase in the proteolysis of crystallins was accompanied by the appearance of the frank cataract on day 24. The Tc initially increased in all of the mouse lenses until just prior to eyelid opening. After that time, the Tc decreased in all lenses. Although the Tc continued to decrease in the normal lenses with age, for the homozygous transgenic mice it exhibited a dramatic increase that began on day 20. Thus, in the TG(72)transgenic mouse, cataract formation occurs in a three-stage process. Tc and other biophysical parameters previously measured appeared to be insensitive to the modifications that occur during stage 1. However, during the second stage of cataract formation, there was a correspondence between abnormal Tc and the abnormal interactions between cellular constituents apparently resulting from lens hydration, the loss of ion homeostasis and continued proteolysis. The last stage of cataract formation results in a total loss of lens transparency and leakage of lens proteins.
  Experimental Eye Research 03/2001; 72(2):115-21. · 3.26 Impact Factor
• Article: Modelling cortical cataractogenesis 21: in diabetic rat lenses taurine supplementation partially reduces damage resulting from osmotic compensation leading to osmolyte loss and antioxidant depletion.

  K P Mitton, H A Linklater, T Dzialoszynski, S E Sanford, K Starkey, J R Trevithick
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  ABSTRACT: The concentration of taurine and the amino acids, glutathione, cysteine, ascorbate and ATP were determined in the lenses of rats made diabetic with streptozotocin. In the clear lenses, prior to vacuole formation after 1 or 2 weeks of diabetes, the increase in concentration of sorbitol and the total decrease of all these osmolytes were not significantly different. The major components of the osmolytes lost were taurine and amino acids, which together accounted for over 75% of the total osmolyte loss. Since glutathione, ascorbate, taurine and cysteine have been reported to have antioxidant activity, it appears that their loss may potentiate damage occurring as a result of free radicals generated by nonenzymic glycation by the Maillard reaction. Amino acids also lost as a result of the osmotic compensation, are estimated to be responsible for almost half of the antioxidant activity lost. To test this hypothesis, normal and streptozotocin diabetic female Wistar rats were given taurine at 0.05% or 0.10% (w/w) in the diet. This treatment resulted in small only marginally significant increases in serum taurine levels. At the end of 6 weeks the rats were examined for weight gain or loss and at the time of killing, blood was collected for measurement of serum glucose. gamma-Crystallin levels were determined in vitreous and aqueous humours using a radioimmunoassay. A lens from each rat was homogenized in 8 m guanidinium chloride for adenosine triphosphate (ATP) analysis. In normal rats, a small amount of gamma-crystallin was found in the vitreous humour, and an even smaller amount in the aqueous humour. Diabetes caused a 4- to 5-fold increase in the vitreous humour and a 4-fold increase in gamma-crystallin in the aqueous humour. Diabetes also led to a significant worsening in general body condition, loss of body weight, formation of cataracts, and decrease in lens ATP levels. Addition of taurine to the diet of diabetic animals resulted in a significant decrease of gamma-crystallin leakage into the vitreous but not the aqueous humour. Taurine had no effect on the lens ATP levels. Neither streptozotocin diabetes nor taurine in the diet appeared to affect the weight of the lenses.
  Experimental Eye Research 10/1999; 69(3):279-89. · 3.26 Impact Factor
• Article: Uptake of vitamin E succinate by the skin, conversion to free vitamin E, and transport to internal organs.

  J R Trevithick, K P Mitton
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  ABSTRACT: The percent solubility at 34 degrees C (skin temperature) of radioactive tocopherol succinate was determined for a number of edible oils, and a semisynthetic oil, Myritol 318 (Henkel, Kankakee, IL, a medium chain triglyceride prepared from fractionated coconut oil). Its solubility in Myritol 318 was approximately 50% better than any of the other oils. 14C-tocopherol succinate was diluted (1) into pure Myritol 318, a cosmetic base or (2) 50% tocopherol succinate in Myritol 318. These preparations were applied topically to a 2 cm diameter circle of the back saddle skin of a hairless mouse (strain skh-1). After 24 hr, up to 65% of the label was absorbed by the skin and was also found in skin removed from areas of the back other than the application area, and internal organs such as liver and heart. Up to 6% was hydrolysed to free tocopherol. Topical treatment may be an alternative to oral administration in gastrointestinal malabsorption diseases.
  Biochemistry and molecular biology international 04/1999; 47(3):509-18.