Dry and back again: characterization of desiccation-associated differentiation of leaf tissues in Craterostigma pumilum Hochst

Du Toit, Stephanus Francois

08 September 2023

Resurrection plants are a polyphyletic group of angiosperms which display true desiccation tolerance - the ability to survive near complete loss of cellular water for extended periods, while recovering metabolic competence upon watering. This is achieved by employing tailored protection behaviours depending on the relative state of (de)hydration. Recent work has raised interest in desiccation associated changes related to tissue destiny in desiccation tolerant vegetative tissues. In this thesis, physiological and transcriptomic techniques were used to characterize such a phenomenon in the homoiochlorophyllous dicot resurrection plant Craterostigma pumilum. Detailed phenotypic observation and pulse-amplitude-modulation fluorometry were used to identify the critical water contents at which key physiological changes occur in leaves of C. pumilum and how this relates to desiccation-associated differentiation between leaf Tip and Base tissues. This was followed by transcriptomic analyses and comparison between these two tissues, to identify potentially key processes involved in desiccation associated tissue differentiation. All findings were then synthesised with existing information reported on for other resurrection plant species to create a theoretical model of desiccation-associated tissue differentiation. This differentiation phenomenon is shown to be transcriptionally initiated during the desiccation commitment stage of the C. pumilum dehydration cycle but is only realised phenotypically during early rehydration and after initial water movement through the leaf tissues. This work provides strong evidence for the existence of desiccation-associated tissue differentiation in C. pumilum and highlights the potential involvement of the phytohormone auxin in the determination of leaf tissue responses to progressive dehydration and anhydrobiosis in resurrection plants.

Leaf Tissues

Craterostigma pumilum Hochst

Engineered heart tissues to investigate the role of mechanical loading and injury in cardiomyocyte proliferation

Ciucci, Giulio

12 July 2021

Myocardial infarction is one of the most severe acute pathologies of the cardiovascular system. The adult mammalian heart is indeed unable to regenerate most of the lost cardiomyocytes (CMs) after cardiac injury. The loss of cardiomyocytes and the myocardial scarring after myocardial infarction eventually compromise contractility of the remaining myocardium, leading to heart failure. Therefore, promoting heart regeneration is one of the most crucial therapeutic targets in cardiovascular medicine. The lack of regenerative response is due to the loss of proliferative capacity of adult CMs which in mice occurs seven days after birth. One of the events which occur at birth in neonatal hearts is a sudden increase in mechanical loading that may contribute to switching mammal CMs phenotype from neonatal proliferative to adult postmitotic. Therefore, understanding the role of mechanotransduction in regulating the balance between CM proliferation and maturation may bring us to the identification of unknown mediators and new potential strategies to induce cardiac regeneration. Regulation of mechanical load in bi-dimensional cultures of CMs can be achieved in different ways, however, the poor degree of CM maturation that can be reached in a culture dish together with the lack of a tridimensional structure represent a major limitation to performing mechanotransduction studies. In our work we developed a novel system to study mechanotransduction of CMs based on 3D culture of cardiac cells, called engineered heart tissues (EHTs), that allow us to reduce or increase mechanical loading easily. We show that the three-dimensional setting of the culture leads to an improvement of CM maturation that may be reversed by mechanical unloading inducing cell proliferation. On the other hand, a persisting overload stimulus eventually induces CM switch to a more mature phenotype with a low degree of proliferation. Also, we have focused our work on developing an EHT-based model able to recapitulate the adult infarct injury in order to investigate the biology of cardiac regeneration in this setting. Specifically, we set up a cryoinjury protocol that is relatively easy and reproducible. Cryoinjury produces a localized injury without compromising EHT’s structural integrity. Indeed, all the EHTs subjected to cryoinjury preserved their contractile activity and did not show any significant change in shape. Considering that EHTs are unpurified cardiac culture rich in fibroblast and endothelial cells, we observed that cryoinjury induce fibroblast proliferation and activation together with a lack of proliferative response of the cardiomyocytes which is, on the other hand, present in the early phase of EHT’s development, similarly to what has been shown in mice and rats after myocardial infarction, highlighting the robustness of our cryoinjury approach as a model to investigate cardiac regeneration.

Growth-adhesive affinities of different forms of tissue; with special reference to peritoneal adhesions.

Fleet, George A.

January 1924

No description available.

Peritoneum -- Growth.

Physiology.

Tissues -- Growth.

The nature of the fatty acids of human depot fat /

Dickman, John Theodore

January 1960

No description available.

Chemistry

Fatty acids

Adipose tissues

The cause of cellular senescence and its prevention /

Huang, Ru Chih Cheo

January 1960

No description available.

Chemistry

Plant cells and tissues

Peas

The effects of chemical, physical, and psychic factors upon the permeability of connective tissue/

Clay, Michael M.

January 1953

No description available.

Health Sciences

Connective tissues

Arthritis

A procedure for the determination of arsenic, gold and cobalt in biological tissues /

Dale, Bettie McSpedden

January 1954

No description available.

Chemistry

Tissues

Arsenic

Gold

Cobalt

Adenosine triphosphatase activities of rat epididymal adipose tissue /

Modolell, Juan Bautista

January 1966

No description available.

Biology

Adipose tissues

Adenosine triphosphatase

Concentration gradients and total amounts of fourteen different elements and the effects of graduated supplies of calcium and magnesium on quality attributes and other elements in the leaves of Chrysanthemum morifolium L. Cv. 'Indianapolis Yellow' /

Henley, Richard W.

January 1967

No description available.

Agriculture

Chrysanthemums

Plant cells and tissues

A method for quantitative morphologic computer analysis of tissues applied to the islets of Langerhans in the avian pancreas /

McClish, Robert Daniel

January 1973

No description available.

Biology

Tissues

Biology

Islands of Langerhans