Katja B. Kostelnik scite author profile

Protein kinase CK2 is a ubiquitously expressed serine/threonine kinase which is composed of two catalytic α- or α'-subunits and two non-catalytic β-subunits. CK2 has been shown to be implicated in embryogenesis, spermatogenesis, and the development of certain organs but its role in basal differentiation processes is only sparsely analyzed. 3T3-L1 cells, which are murine pre-adipocytes, can be induced to differentiate into mature adipocytes within 2 weeks using a combination of insulin, dexamethasone, and isobutylmethylxanthine. We found that the activity of CK2 slightly increases until day 6 and subsequently, decreases in fully differentiated adipocytes. The decrease in activity goes along with a lower expression of all the three subunits of CK2. After inhibition of CK2 with 2-dimethylamino-4,5,6,7-tetrabromo-1H-benzimidazole (DMAT) or 1,2,5,8-tetrahydroxyanthraquinone (quinalizarin), before day 6, 3T3-L1 cells did not differentiate into adipocytes; inhibition of CK2 after day 6 had no effect on the differentiation process. These results indicated a role of CK2 in early events of the differentiation process and that CK2 is dispensable for late stages of differentiation.

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A cleavable cytolysin–neuropeptide Y bioconjugate enables specific drug delivery and demonstrates intracellular mode of action

Ahrens

Kostelnik

Rennert

et al. 2015

Journal of Controlled Release

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Active contractions in single suspended epithelial cells

et al. 2013

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Investigations of active contractions in tissue cells to date have been focused on cells that exert forces via adhesion sites to substrates or to other cells. In this study we show that also suspended epithelial cells exhibit contractility, revealing that contractions can occur independently of focal adhesions. We employ the Optical Stretcher to measure adhesion-independent mechanical properties of an epithelial cell line transfected with a heat-sensitive cation channel. During stretching the heat transferred to the ion channel causes a pronounced Ca(2+) influx through the plasma membrane that can be blocked by adequate drugs. This way the contractile forces in suspended cells are shown to be partially triggered by Ca(2+) signaling. A phenomenological mathematical model is presented, incorporating a term accounting for the active stress exerted by the cell, which is both necessary and sufficient to describe the observed increase in strain when the Ca(2+) influx is blocked. The median and the shape of the strain distributions depend on the activity of the cells. Hence, it is unlikely that they can be described by a simple Gaussian or log normal distribution, but depend on specific cellular properties such as active contractions. Our results underline the importance of considering activity when measuring cellular mechanical properties even in the absence of measurable contractions. Thus, the presented method to quantify active contractions of suspended cells offers new perspectives for a better understanding of cellular force generation with possible implications for medical diagnosis and therapy.

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