Hans-Georg Mannherz scite author profile

Two distinct dimers are formed during the initial steps of actin polymerization. The first one, referred to as the 'lower dimer' (LD) was discovered many years ago by means of chemical crosslinking. Owing to its transient nature, a biological relevance had long been precluded when, using LD-specific antibodies, we detected LD-like contacts in actin assemblies that are associated with the endolysosomal compartment in a number of different cell lines. Moreover, immunofluorescence showed the presence of LD-related structures at the cell periphery of migrating fibroblasts, in the nucleus, and in association with the centrosome of interphase cells. Here, we explore contributions of the LD to the assembly of supramolecular actin structures in real time by total internal reflection fluorescence (TIRF) microscopy. Our data shows that while LD on its own cannot polymerize under filament forming conditions, it is able to incorporate into growing F-actin filaments. This incorporation of LD triggers the formation of X-shaped filament assemblies with barbed ends that are pointing in the same direction in the majority of cases. Similarly, an increased frequency of junction sites was observed when filaments were assembled in the presence of oxidized actin. This data suggests that a disulfide bridge between Cys374 residues might stabilize LD-contacts. Based on our findings, we propose two possible models for the molecular mechanism underlying the supramolecular actin patterning in LD-related structures.

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Hormonal Control of Prostatic Differentiation and Morphogenesis: The Impact of Apoptosis and Steroid Hormone Receptor Expression

Aumüller¹,

Holterhus²,

Eicheler³

et al. 1995

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Hans-Georg Mannherz

Induction of rat liver parenchymal cell apoptosis by hepatic myofibroblasts via transforming growth factor β

Contributions of the lower dimer to supramolecular actin patterning revealed by TIRF microscopy

Hormonal Control of Prostatic Differentiation and Morphogenesis: The Impact of Apoptosis and Steroid Hormone Receptor Expression

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