F-actin rearrangements and analysis of physical environment of invasive hyphal growth : a thesis submitted in accordance with the requirements of the University of Canterbury for the degree of Master of Science in Biochemistry /

Rolston, Laura.

January 1900

Thesis (M. Sc.)--University of Canterbury, 2009. / Typescript (photocopy). "June 2009." Includes bibliographical references (leaves 130-138). Also available via the World Wide Web.

Fungi Achlya bisexualis Actin.

The roles of integrin-like proteins, tyrosine phosphorylation and F-actin in hyphal tip growth

Chitcholtan, Kanueng

January 2006

Tip growth, the mechanism by which hyphae, pollen tubes, root hairs, and algal rhizoids extend, is a complex and dynamic process that is characterised by localised extension at the extreme apex of the cell and morphological polarity. Its complexity suggests that high degree of regulation is needed to ensure that the characteristics of a particular cell type are maintained during growth. Regulation is likely to come about through bidirectional interplay between the cell wall and cytoplasm, although the mechanisms by which such cross-talk might occur are unknown. Results of this thesis present immunocytochemical data that indicate the presence of, and a close association between β4 integrin subunit-like proteins and proteins containing phosphorylated tyrosine residues in the oomycete Achlya bisexualis. When hyphae were plasmolysed, these proteins were present in wall-membrane attachment sites where there was also F-actin. A combination of immunoblots, ELISA, and a coupled enzyme assay suggest that phosphorylation may occur by both autophosphorylation and through the possible action of a tyrosine kinase. Tyrphostins, which are inhibitors of tyrosine kinases, abolished the anti-phosphotyrosine staining, inhibited the kinase activity, slowed tip growth and affected the organisation of the actin cytoskeleton, in a dose-dependent manner. In addition, results show A. bisexualis contains proteins epitopically similar to the rod domain of animal talin. However, these proteins do not co-localise with F-actin, and mainly locate at the sub-apical region in hyphae. For comparative purposes, Saccharomyces cerevisiae was also used to investigate the presence of β4 integrin subunit-like proteins and tyrosine phosphorylation. Immunoblotting showed that S. cereviaise contains a protein, which is found in the microsomal pellet fraction, that cross reacts with anti-β4 integrin subunit antibody. Furthermore, there are a number of proteins containing phosphotyrosine residues. Immunocytochemistry shows that this anti-β4 integrin staining is at the cortical site but anti-phosphotyrosine residues are distributed throughout cells. On the basis of an ELISA and a coupled enzyme assay, it is suggested that a soluble fraction of S. cerevisiae contains tyrosine kinase activity. This activity is strongly inhibited by tyrphostins.

Integrin

tip growth

tyrosine phosphorylation

Achlya bisexualis

The roles of integrin-like proteins, tyrosine phosphorylation and F-actin in hyphal tip growth

Chitcholtan, Kanueng

January 2006

Tip growth, the mechanism by which hyphae, pollen tubes, root hairs, and algal rhizoids extend, is a complex and dynamic process that is characterised by localised extension at the extreme apex of the cell and morphological polarity. Its complexity suggests that high degree of regulation is needed to ensure that the characteristics of a particular cell type are maintained during growth. Regulation is likely to come about through bidirectional interplay between the cell wall and cytoplasm, although the mechanisms by which such cross-talk might occur are unknown. Results of this thesis present immunocytochemical data that indicate the presence of, and a close association between β4 integrin subunit-like proteins and proteins containing phosphorylated tyrosine residues in the oomycete Achlya bisexualis. When hyphae were plasmolysed, these proteins were present in wall-membrane attachment sites where there was also F-actin. A combination of immunoblots, ELISA, and a coupled enzyme assay suggest that phosphorylation may occur by both autophosphorylation and through the possible action of a tyrosine kinase. Tyrphostins, which are inhibitors of tyrosine kinases, abolished the anti-phosphotyrosine staining, inhibited the kinase activity, slowed tip growth and affected the organisation of the actin cytoskeleton, in a dose-dependent manner. In addition, results show A. bisexualis contains proteins epitopically similar to the rod domain of animal talin. However, these proteins do not co-localise with F-actin, and mainly locate at the sub-apical region in hyphae. For comparative purposes, Saccharomyces cerevisiae was also used to investigate the presence of β4 integrin subunit-like proteins and tyrosine phosphorylation. Immunoblotting showed that S. cereviaise contains a protein, which is found in the microsomal pellet fraction, that cross reacts with anti-β4 integrin subunit antibody. Furthermore, there are a number of proteins containing phosphotyrosine residues. Immunocytochemistry shows that this anti-β4 integrin staining is at the cortical site but anti-phosphotyrosine residues are distributed throughout cells. On the basis of an ELISA and a coupled enzyme assay, it is suggested that a soluble fraction of S. cerevisiae contains tyrosine kinase activity. This activity is strongly inhibited by tyrphostins.

Integrin

tip growth

tyrosine phosphorylation

Achlya bisexualis

The role of F-actin in hyphal branching : a thesis submitted in accordance with the requirements of the University of Canterbury for the degree of Master of Science in Microbiology /

McNaughton, Fergus S.

January 1900

Thesis (M. Sc.)--University of Canterbury, 2005. / Typescript (photocopy). "October 2005." Includes bibliographical references (leaves 60-62). Also available via the World Wide Web.

An investigation of the antifungal and antitumor activity of ajoene

Yang, Mandy

January 2013

The garlic extract ajoene is considered to have antimicrobial and antitumor effects against a variety of cell types, and it is suggested to have the potential to be used as an antifungal or antitumor drug clinically. The underlying mechanism of its inhibitory effects is still uncertain. In this project, the effects of ajoene on the growth of fungal and oomycete cells were studied on Candida albicans, Neurospora crassa and Achlya bisexualis. Endometrial cancer is the most common gynecologic cancer. A 3D spheroid model of endometrial cancer cells were for the first time used to investigate the antitumor effects of ajoene and selected antitumor agents. Ajoene was extracted from fresh garlic by chromatographic methods and the outcome of the extractions was verified with Mass spectrometry and NMR spectroscopy. Ajoene was then tested on the yeast form or germ tubes of C. albicans, and the cell division and germ tube formation was analyzed. N. crassa and A. bisexualis were treated with ajoene on plates or on glass slides to measure the hyphae radial extension or individual hyphal extension. 3D endometrial adenocarcinoma cell (Ishikawa) spheroids were treated with ajoene, paclitaxel, targeted drugs everolimus, sorafenib, gefitinib and canertinib alone or in combinations. The growth activity, metabolic activity, cell proliferation, apoptotic activity and the cytoskeletons were analyzed after the treatments. Cell division of C.albicans was inhibited by ajoene at 5µg/ml or higher concentrations. The length of C.albicans germ tubes was significantly shorter in ajoene treated groups than the untreated ones. Radial extension and individual hyphal extension of N. crassa and A. bisexualis were both inhibited by ajoene. Ajoene did not show any antitumor effects on the 3D cell model of Ishikawa cells. No synergistic effect was detected between ajoene and paclitaxel or ajoene and everolimus. The targeted drugs Canertinib and everolimus showed an inhibitory effect on growth activity of the spheroids, but no synergy with paclitaxel. In conclusion, ajoene was able to inhibit various forms of fungal and oomycete growth, but any antitumor activity of ajoene did not show on 3D culture of endometrial cancer cells.

F-actin rearrangements and analysis of physical environment of invasive hyphal growth.

Rolston, Laura Elizabeth

January 2009

Invasive growth through a substrate requires a massive amount of penetrative force, and this is generated in the space of a few microns in a growing tip. This process is known to be critical in the root hair, pollen tube, rhizoids, and the topic of this thesis, hyphal growth. However defining the mechanisms underlying the tip growth remains a contentious issue. Shortcomings in control of direction and regulation of growth began to undermine early turgor-based theories, and the cytoskeletal protein actin, ubiquitous in nature and with crucial roles in structure and motility became a target for investigation. A major breakthrough came with the discovery that a characteristic actin depleted zone (ADZ) occurs at the growing tip of hyphae during invasive but not non-invasive hyphal growth. The ADZ is likely to have an important role in generating the greater protrusive force required for invasive growth. However, since its discovery, little has been determined about the characteristics of the ADZ. Uncertainty in the description of the physical environment the hyphae face adds a layer of complexity to interpretation of results. This thesis aims to address this issue, studying the impact of increasing agarose substrate concentration on the presence and dimensions of the ADZ in the oomycete A. bisexualis. Furthermore, agarose is examined by compression and imaging to compare the physical characteristics of the agar samples over the range of concentrations, and determine whether increasing agarose concentration influences agarose gel structure. Results suggest a difference in the number of ADZ observed in non-invasive compared with invasive samples, however no significant differences in the number or dimensions of ADZ were found amongst the 1-4% w/v agarose concentrations. The 0% sample showed 20.7 percent of hyphae exhibited depleted zones, while 1, 2, 3 and 4% samples showed 56.9%, 48.8%, 40.9% and 54.2% respectively. ADZ dimensions did not correlate with agarose concentration. The average ADZ area:hyphal diameter ratio was 0.634, 0.526, 0.430, 1.09, and 0.65 for 0-4% agarose concentrations respectively. Additionally, investigation of gel compression forces revealed gel strength increases with agarose concentration. The force required to compress the agarose increased from 1.85 Psi in 1% agarose to 4.85, 7.09 and 12.22 Psi in 2, 3 and 4% agarose concentrations respectively. SEM imaging, however, suggests heterogeneity of the fibrous interconnected network of agarose gels at a microscopic scale with variable porous structure at all agarose concentrations. This scale is relevant to hyphal tip growth. In combination, these results suggest F-actin depletion may be a response mechanism to provide greater force for invasive growth. Additionally, this response is not dependent on the concentration of the agarose media, possibly due to the variability encountered within the media. These results contribute another important step forward in unraveling the elusive mechanism of tip growth.

hyphal growth

tip growth

Achlya bisexualis

oomycete

agar

agarose

substrate

microscopy

actin depleted zone

ADZ

actin rearrangement

cytoskeleton

F-actin rearrangements and analysis of physical environment of invasive hyphal growth.

Rolston, Laura Elizabeth

January 2009

Invasive growth through a substrate requires a massive amount of penetrative force, and this is generated in the space of a few microns in a growing tip. This process is known to be critical in the root hair, pollen tube, rhizoids, and the topic of this thesis, hyphal growth. However defining the mechanisms underlying the tip growth remains a contentious issue. Shortcomings in control of direction and regulation of growth began to undermine early turgor-based theories, and the cytoskeletal protein actin, ubiquitous in nature and with crucial roles in structure and motility became a target for investigation. A major breakthrough came with the discovery that a characteristic actin depleted zone (ADZ) occurs at the growing tip of hyphae during invasive but not non-invasive hyphal growth. The ADZ is likely to have an important role in generating the greater protrusive force required for invasive growth. However, since its discovery, little has been determined about the characteristics of the ADZ. Uncertainty in the description of the physical environment the hyphae face adds a layer of complexity to interpretation of results. This thesis aims to address this issue, studying the impact of increasing agarose substrate concentration on the presence and dimensions of the ADZ in the oomycete A. bisexualis. Furthermore, agarose is examined by compression and imaging to compare the physical characteristics of the agar samples over the range of concentrations, and determine whether increasing agarose concentration influences agarose gel structure. Results suggest a difference in the number of ADZ observed in non-invasive compared with invasive samples, however no significant differences in the number or dimensions of ADZ were found amongst the 1-4% w/v agarose concentrations. The 0% sample showed 20.7 percent of hyphae exhibited depleted zones, while 1, 2, 3 and 4% samples showed 56.9%, 48.8%, 40.9% and 54.2% respectively. ADZ dimensions did not correlate with agarose concentration. The average ADZ area:hyphal diameter ratio was 0.634, 0.526, 0.430, 1.09, and 0.65 for 0-4% agarose concentrations respectively. Additionally, investigation of gel compression forces revealed gel strength increases with agarose concentration. The force required to compress the agarose increased from 1.85 Psi in 1% agarose to 4.85, 7.09 and 12.22 Psi in 2, 3 and 4% agarose concentrations respectively. SEM imaging, however, suggests heterogeneity of the fibrous interconnected network of agarose gels at a microscopic scale with variable porous structure at all agarose concentrations. This scale is relevant to hyphal tip growth. In combination, these results suggest F-actin depletion may be a response mechanism to provide greater force for invasive growth. Additionally, this response is not dependent on the concentration of the agarose media, possibly due to the variability encountered within the media. These results contribute another important step forward in unraveling the elusive mechanism of tip growth.

hyphal growth

tip growth

Achlya bisexualis

oomycete

agar

agarose

substrate

microscopy

actin depleted zone

ADZ

actin rearrangement

cytoskeleton