Induction of auto-antibodies to Cathepsin B.

Moolman, Lizette.

08 November 2013

Because tumours are comprised of "self" cells and antigens, they escape recognition by the immune system, which discriminates between "self" and "non-self". One such antigen is cathepsin B, a lysosomal cysteine proteinase, that has been implicated as one of the proteolytic enzymes involved in tumour invasion and metastasis. Cathepsin B autoantibodies could open possibilities which may be useful in cancer immunotherapy. In this study generation of cathepsin B autoantibodies was attempted by manipulating the immune system into recognising and responding to cathepsin B in complex with a "foreign" protein, bovine serum albumin (BSA). Cathepsin B was isolated from rabbit liver using the three phase partitioning (TPP) method, modified by adding t-butanol in the homogenisation buffer. Isolation of cathepsin Band cathepsin L, using this novel method, minimised the formation of artefacts such as a covalent cathepsin L-stefin B complex and produced higher yields of enzyme. Pure rabbit liver cathepsin B was conjugated to BSA, using glutaraldehyde as coupling agent, and administered intramuscularly into rabbits. Another three inoculation protocols, which functioned as controls were: i) free cathepsin B administered intramuscularly, ii) complexed cathepsin B administered intravenously, and iii) free cathepsin B administered intravenously. IgGs isolated from inoculated rabbits' serum were assayed by a three layer ELISA system, immunoinhibition assays and dot blots. The anti-complex (intramuscular) antibodies showed the highest recognition for cathepsin B and were the only antibodies that were immunoinhibitory. This suggests that the immune system was, to some extend, successfully manipulated into recognising the complexed "self" cathepsin B. / Thesis (M.Sc.)-University of Natal, Pietermaritzburg, 2001.

Cathepsin B.

Clinical enzymology.

Autoantibodies.

Theses--Biochemistry.

Cancer--Immunological aspects.

Effects of an Acute Bout of Near-Maximal Intensity Exercise on the Cardiac Enzymes in Human Sera

Goheen, Bernadette A.

05 1900

The Cardiac Profile, a pattern of serum enzyme changes seen within seventy-two hours after an AMI, is diagnostic aid for detecting occurrence of infarcts. The effects of exercise stress on the Cardiac Profile aid clinicians in avoiding diagnostic errors in patients immediately after exercise. Five male volunteers ran from six to ten miles. Serum enzyme levels were monitored serially three days before and five days after stress. Enzyme activity was determined spectrophotometrically and electrophoretically. Significant increases in total CPK and LDH were seen. An LDH 'one-two flip' occurred eight hours after exercise. No MB-CPK was found following the run.

Cardiac Profile

Exercise|xPhysiological aspects.

Clinical enzymology.

Creatine kinase.

Lactate hydrogenase.

Heart function tests.

exercise stress

Direct profiling of multiple enzymes in human cell lysates by affinity chromatography/electrospray ionization mass spectrometry : application to clinical enzymology /

Gerber, Scott Anthony,

January 2001

Thesis (Ph. D.)--University of Washington, 2001. / Vita. Includes bibliographical references (leaves 132-138).

A study of proteinases of invasive cells using cryoultramicrotomy and immunogold labelling.

Elliott, Edith.

January 1993

This study forms part of an investigation into the possible relevance of the lysosomal proteinases, cathepsins B, H, Land D, in cancer cell invasion. In this study, the main technique adopted was the Tokuyasu "cryo" method, in which the tissues were fixed, frozen and sectioned and labelled using the relevant antibodies, which were detected with protein A gold probes. In order to implement the Tokuyasu technique, it was necessary to rebuild a knife maker, for the production of adequately sharp glass knives, and to modify a sputter-coater into a glow-discharger, for rendering carbon-coated grids hydrophilic, to promote adhesion of hydrated sections. This study was directed towards human tissues and peptide antibodies were investigated as a means of avoiding isolation of proteins from scarce human tissue, and as a means of obtaining antibodies that will target specific regions of proteins of interest. Peptide antibodies were also considered promising for studies of proteinase trafficking and as immunoinhibiting agents, potentially useful in cancer therapy. Various prediction programmes were investigated for their effectiveness in predicting whether a given peptide sequence will elicit antibodies that will react with the native protein. Successful prediction would increase the success rate of peptide antibody production and thus lower the cost. Leucocytes were studied as a model of an invasive cell, since they are more readily available than tumour cells and serve the purpose during the development of methods. In the course of these studies, an optimal protocol for the fixation of PMNs was developed, involving lateral fixation of cut sections, that should be useful for future studies on these cells. Elastase and cathepsins D and G were found on the surface of activated PMNs and could thus play a role in the invasive properties of these cells. Studies on MCF-10A "normal" breast epithelial cells and their ras-transformed Neo-T counterparts revealed that upon transformation, lysosomes shift from a perinuclear position, to a more peripheral position. None of the cathepsins studied was found on the cell surface of either the normal or ras-transfected cells, suggesting that surface distribution of these enzymes may not be a requirement for invasiveness. These studies suggest that immunocytochemical investigation of cells, in the process of invading through a barrier membrane, might be profitable in elucidating the role of proteinases in invasive cancer. / Thesis (Ph.D.)-University of Natal, Pietermaritzburg, 1993.

Immunocytochemistry--Technique.

Immunogold labelling.

Proteinase.

Cathepsin B.

Neutrophils.

Cryotomy.

Clinical enzymology.

Theses--Biochemistry.