Donata Figaj scite author profile

The HtrA proteases degrade damaged proteins and thus control the quality of proteins and protect cells against the consequences of various stresses; they also recognize specific protein substrates and in this way participate in regulation of many pathways. In many pathogenic bacteria strains lacking the HtrA function lose virulence or their virulence is decreased. This is due to an increased vulnerability of bacteria to stresses or to a decrease in secretion of virulence factors. In some cases HtrA is secreted outside the cell, where it promotes the pathogen's invasiveness. Thus, the HtrA proteases of bacterial pathogens are attractive targets for new therapeutic approaches aimed at inhibiting their proteolytic activity. The exported HtrAs are considered as especially promising targets for chemical inhibitors. In this review, we characterize the model prokaryotic HtrAs and HtrAs of pathogenic bacteria, focusing on their role in virulence. In humans HtrA1, HtrA2(Omi) and HtrA3 are best characterized. We describe their role in promoting cell death in stress conditions and present evidence indicating that HtrA1 and HtrA2 function as tumor suppressors, while HtrA2 stimulates cancer cell death induced by chemotherapeutic agents. We characterize the HtrA2 involvement in pathogenesis of Parkinson's and Alzheimer's diseases, and briefly describe the involvement of human HtrAs in other diseases. We hypothesize that stimulation of the HtrA's proteolytic activity might be beneficial in therapies of cancer and neurodegenerative disorders, and discuss the possibilities of modulating HtrA proteolytic activity considering the present knowledge about their structure and regulation.

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Properties of the HtrA Protease From Bacterium Helicobacter pylori Whose Activity Is Indispensable for Growth Under Stress Conditions

Zarzecka

Modrak-Wójcik

Figaj

et al. 2019

Front. Microbiol.

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The protease high temperature requirement A from the gastric pathogen Helicobacter pylori (HtrA Hp ) belongs to the well conserved family of serine proteases. HtrA Hp is an important secreted virulence factor involved in the disruption of tight and adherens junctions during infection. Very little is known about the function of HtrA Hp in the H. pylori cell physiology due to the lack of htrA knockout strains. Here, using a newly constructed Δ htrA mutant strain, we found that bacteria deprived of HtrA Hp showed increased sensitivity to certain types of stress, including elevated temperature, pH and osmotic shock, as well as treatment with puromycin. These data indicate that HtrA Hp plays a protective role in the H. pylori cell, presumably associated with maintenance of important periplasmic and outer membrane proteins. Purified HtrA Hp was shown to be very tolerant to a wide range of temperature and pH values. Remarkably, the protein exhibited a very high thermal stability with the melting point (T m ) values of above 85°C. Moreover, HtrA Hp showed the capability to regain its active structure following treatment under denaturing conditions. Taken together, our work demonstrates that HtrA Hp is well adapted to operate under harsh conditions as an exported virulence factor, but also inside the bacterial cell as an important component of the protein quality control system in the stressed cellular envelope.

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HtrA Protease Family as Therapeutic Targets

Skórko-Glonek¹,

Żurawa-Janicka²,

Koper³

et al. 2012

CPD

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The Role of Proteases in the Virulence of Plant Pathogenic Bacteria

Figaj

Ambroziak

Przepiora

et al. 2019

IJMS

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A pathogenic lifestyle is inextricably linked with the constant necessity of facing various challenges exerted by the external environment (both within and outside the host). To successfully colonize the host and establish infection, pathogens have evolved sophisticated systems to combat the host defense mechanisms and also to be able to withstand adverse environmental conditions. Proteases, as crucial components of these systems, are involved in a variety of processes associated with infection. In phytopathogenic bacteria, they play important regulatory roles and modulate the expression and functioning of various virulence factors. Secretory proteases directly help avoid recognition by the plant immune systems, and contribute to the deactivation of the defense response pathways. Finally, proteases are important components of protein quality control systems, and thus enable maintaining homeostasis in stressed bacterial cells. In this review, we discuss the known protease functions and protease-regulated signaling processes associated with virulence of plant pathogenic bacteria.

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The LA Loop as an Important Regulatory Element of the HtrA (DegP) Protease from Escherichia coli

Figaj

Giełdoń

Polit

et al. 2014

Journal of Biological Chemistry

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Background: An understanding of the HtrA protease activation mechanism is incomplete with respect to its LA regulatory loop.Results: A theoretical model of the LA structure is provided and experimentally verified. Conclusion: LA intersubunit contacts strongly contribute to the stabilization of the inactive HtrA. Significance: This is the first report that simultaneously offers a theoretical three-dimensional structure of LA and its biophysical and functional properties.

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Donata Figaj

HtrA Protease Family as Therapeutic Targets

Properties of the HtrA Protease From Bacterium Helicobacter pylori Whose Activity Is Indispensable for Growth Under Stress Conditions

HtrA Protease Family as Therapeutic Targets

The Role of Proteases in the Virulence of Plant Pathogenic Bacteria

The LA Loop as an Important Regulatory Element of the HtrA (DegP) Protease from Escherichia coli

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