Kris L. Weber scite author profile

Mice deficient for the major lysosomal aspartic proteinase cathepsin D, generated by gene targeting, develop normally during the first 2 weeks, stop thriving in the third week and die in a state of anorexia at day 26 +/− 1. An atrophy of the ileal mucosa first observed in the third week progresses towards widespread intestinal necroses accompanied by thromboemboli. Thymus and spleen undergo massive destruction with fulminant loss of T and B cells. Lysosomal bulk proteolysis is maintained. These results suggest, that vital functions of cathepsin D are exerted by limited proteolysis of proteins regulating cell growth and/or tissue homeostasis, while its contribution to bulk proteolysis in lysosomes appears to be non‐critical.

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An in vivo animal model of gene therapy for leukocyte adhesion deficiency.

Krauss¹,

Mayo-Bond

Rogers

et al. 1991

J. Clin. Invest.

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Leukocyte adhesion deficiency (LAD) is an inherited disorder of leukocyte function that is caused by defects in the CD18 gene and is associated with diminished cell surface expression of CD11/CD18 proteins. We have developed an in vivo model for gene therapy of LAD. Recombinant retroviruses were used to transduce a functional human CD18 gene into murine bone marrow cells which were transplanted into lethally irradiated syngeneic recipients. A reliable flow cytometric assay for human CD18 in transplant recipients was developed based on: (a) the availability of human specific CD18 monoclonal antibodies and (b) the observation that human CD18 can form chimeric heterodimers with murine CD11a on the cell surface. Human CD18 was detected on leukocytes in a substantial number of transplant recipients for at least 6 mo suggesting that the gene had been transduced into stem cells. Expression was demonstrated in several lineages of a variety of hematopoietic tissues, but was consistently highest and most frequent in granulocytes. Murine granulocytes demonstrated appropriate posttranscriptional regulation of human CD18 in response to activation of protein kinase C. No apparent untoward effects of human CD18 expression were noted in transplant recipients. These studies suggest a specific strategy for LAD gene therapy that may be effective and safe.

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Dependence of fluorodeoxyuridine-induced cytotoxicity and megabase DNA fragment formation on S phase progression in HT29 cells

Tang

Weber

Lawrence

et al. 1996

Cancer Chemother Pharmacol

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The relationship between cell cycle progression and induction of DNA double-strand breaks and cytotoxicity by exposure to fluorodeoxyuridine (FdUrd) was studied in HT29 human colon cancer cells. Fractionation of drug-treated populations by centrifugal elutriation yielded subpopulations having widely divergent abilities to progress through S phase in the presence of the drug. One of these subpopulations, which appeared to undergo coordinated growth arrest, was resistant to FdUrd cytotoxicity and DNA damage. In contrast, the subpopulation which was able to progress furthest through S phase in the presence of FdUrd underwent unbalanced growth arrest (i.e., increase in size and mass out of proportion to DNA synthesis), and displayed both DNA double-strand break formation (assayed by pulsed field gel electrophoresis) and loss of clonogenicity. When cells were elutriated prior to drug treatment, producing fractions enriched in cells at various cell cycle stages, no significant differences in sensitivity to FdUrd-induced cytotoxicity were detected among elutriation fractions. These findings support the model that, in HT29 cells, progression into and through S phase during drug treatment is an important determinant of FdUrd-induced DNA damage and cytotoxicity, but that the cell cycle position at the start of drug exposure is not a critical factor for these effects.

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Kris L. Weber

Mice deficient for the lysosomal proteinase cathepsin D exhibit progressive atrophy of the intestinal mucosa and profound destruction of lymphoid cells.

An in vivo animal model of gene therapy for leukocyte adhesion deficiency.

Dependence of fluorodeoxyuridine-induced cytotoxicity and megabase DNA fragment formation on S phase progression in HT29 cells

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