Global dynamics of two-compartment models for cell production systems with regulatory mechanisms

We present a global stability analysis of two-compartment models of a hierarchical cell production system with a nonlinear regulatory feedback loop. The models describe cell differentiation processes with the stem cell division rate or the self-renewal fraction regulated by the number of mature cells. The two-compartment systems constitute a basic version of the multicompartment models proposed recently by Marciniak-Czochra and collaborators [25] to investigate the dynamics of the hematopoietic system. Using global stability analysis, we compare different regulatory mechanisms. For both models, we show that there exists a unique positive equilibrium that is globally asymptotically stable if and only if the respective reproduction numbers exceed one. The proof is based on constructing Lyapunov functions, which are appropriate to handle the specific nonlinearities of the model. Additionally, we propose a new model to test biological hypothesis on the regulation of the fraction of differentiating cells. We show that such regulatory mechanism is incapable of maintaining homeostasis and leads to unbounded cell growth. Potential biological implications are discussed.     

Studies on Amylolytic Enzymes Produced by Endornyces sp

Various saccharides were hydrolyzed with the purified amyloglucosidase of Endornyces sp. IFO 0111.

Glucose was the only reducing product in the digest of soluble starch. The amyloglucosidase could hydrolyze starch and amylose only incompletely though it had the ability to split α-d-(1→6) bonds and hydrolyzed amylopectin and glycogen to high extents.

It hydrolyzed maito-oligosaccharides by stepwise removal of glucose units from the nonreducing end of the molecules.     

Occurrence of Castasterone,Brassinolide and Methyl 4-Chloroindole- 3-acetate in Immature Vicia faba Seeds

The rice lamina inclination test indicated the presence of brassinosteroid-like active substances in immature Vicia faba seeds. Two of these were identified as castasterone and brassinolide by GC/MS and GC/SIM, respectively. Another active principle was identified as methyl 4- chloroindole-3-acetate by GC/MS and HPLC.     

Excretion of 5′-Nucleotides from Bacterial Cells

Incubating the dried cells of Brevibacterium sojae No. 425-40 in alkaline buffer, the excretion of 5′-nucleotides accompanying with the decrease of intracellular RNA was observed. Then the determination of the optimum condition of the excretion and the investigation on the enzyme responsible for the degradation of endogenous RNA were carried out.

In the experiments using sonicate and disrupted cells, it appeared that orthophos-phate and Mg⁺⁺ might be accelerative or essential for the degradation of endogenous RNA and, in addition to four 5′-nucleotides (AMP, GMP, UMP and CMP), each nucleoside 5′-diphosphate was also contained in its degraded products. Nucleoside 2′- or 3′-monophos-phates were not detected. Although it was not clear whether phosphodiesterase concerned with the degradation of intracellular RNA or not, it was suggested that polynucleotide phos-phorylase acted mainly on the degradation.

The maximal excretion of 5′-nucleotides from dried cells was obtained by suspending 1 to 2% of dried cells in 0.05 M carbonate-bicarbonate buffer (pH 10) and incubating it at 60°C for two to three hours. Orthophosphate and Mg⁺⁺ were not required for the excretion.     

Identification of Castasterone,Typhasterol and Teasterone from the Pollen of Zea mays

From the pollen of Zea mays, three brassinosteroids, castasterone, typhasterol and teasterone, were identified by GC/MS and/or ¹H NMR. Their concentrations in the pollen were shown by GC/SIM to be about 120 μg/kg fr.wt. (castasterone), 6.6 μg/kg fr.wt. (typhasterol) and 4.1 μg/kg fr.wt. (teasterone). It was also found that the anther contained a fairly large amount of brassinosteroids by a bioassay.     

A Root Growth-promoting Factor,Capillarol, from Artemisia capillaris Thunb

A root growth-promoting factor was isolated from Artemisia capillaris Thunb. The chemical structure of this compound was elucidated as methyl 3-(3-methylbut-2-enoyl)-4-hydroxycinnamate (capillarol) on the basis of its spectroscopic analysis. At 5×10^–4m this compound promoted rice root growth to 180% of the control value.     

Endothelial Protein C Receptor Function in Murine and Human Breast Cancer Development

Several markers identify cancer stem cell-like populations, but little is known about the functional roles of stem cell surface receptors in tumor progression. Here, we show that the endothelial protein C receptor (EPCR), a stem cell marker in hematopoietic, neuronal and epithelial cells, is crucial for breast cancer growth in the orthotopic microenvironment of the mammary gland. Mice with a hypomorphic allele of EPCR show reduced tumor growth in the PyMT-model of spontaneous breast cancer development and deletion of EPCR in established PyMT tumor cells significantly attenuates transplanted tumor take and growth. We find expansion of EPCR⁺ cancer stem cell-like populations in aggressive, mammary fat pad-enhanced human triple negative breast cancer cells. In this model, EPCR-expressing cells have markedly increased mammosphere- and tumor-cell initiating activity compared to another stable progenitor-like subpopulation present at comparable frequency. We show that receptor blocking antibodies to EPCR specifically attenuate in vivo tumor growth initiated by either EPCR⁺ cells or the heterogenous mixture of EPCR⁺ and EPCR^- cells. Furthermore, we have identified tumor associated macrophages as a major source for recognized ligands of EPCR, suggesting a novel mechanism by which cancer stem cell-like populations are regulated by innate immune cells in the tumor microenvironment.