![]() ![]() McCormack et al.'s findings reveal how Perforin-2 is activated during the innate immune response and how some bacteria can defeat this pivotal defense. Also, mice that lacked Perforin-2 are highly susceptible to infectious diseases. pseudotuberculosis that lacked Cif remained healthy. Mice that are infected with a bacterium called Yersinia pseudotuberculosis become seriously unwell and often die. This blocks the ubiquitin labeling of Perforin-2, which renders it a useless weapon that can no longer be directed towards bacteria. also show that some bacteria use a protein called a cell cycle inhibiting factor (or Cif for short) to inhibit the CRL complex. Ubiquitin works much like the shipping label of a package, enabling the efficient targeting of Perforin-2 to the invading bacteria. The experiments show that when animal cells detect bacteria, or merely a fragment of their cell wall, a specific group of proteins, called the CRL complex, attaches a molecule called ubiquitin to Perforin-2. infected human and mice cells with bacteria that cause serious diseases of the digestive tract. To address these questions, McCormack et al. However, it was not clear how Perforin-2 is switched on and what, if anything, bacteria do to counteract it. This protein forms pores on bacterial cells, causing them to split open and die. One component of innate immunity is a protein called Perforin-2 that is present in most, if not all, animal cells. Microbes must defeat the innate immune system in order to cause disease, and ultimately to spread from one host to the next. This system is activated by the general features of microbial cells for example, the molecules that make up the walls surrounding most bacteria. An animal's first line of defense is provided by its ‘innate’ immune system. Throughout evolution, these microbes and their hosts have been fighting never ending arms races in which the microbes deploy ever more elaborate weapons, while the hosts adapt to defend themselves. Collectively, these studies further underscore the biological significance of Perforin-2 and elucidate critical molecular events that culminate in Perforin-2-dependent killing of both intracellular and extracellular, cell-adherent bacteria.Ī wide range of bacteria and other microbes can infect animals and cause disease. Because CRL activity is dependent upon NEDD8, Cif blocks ubiquitin dependent trafficking of Perforin-2 and thus, its bactericidal activity. Enteric pathogens such as Yersinia pseudotuberculosis and enteropathogenic Escherichia coli disarm host cells by injecting cell cycle inhibiting factors (Cifs) into mammalian cells to deamidate the ubiquitin-like protein NEDD8. Ubiquitylation triggers a rapid redistribution of Perforin-2 and is essential for its bactericidal activity. We show here that a cullin-RING E3 ubiquitin ligase (CRL) complex containing cullin-1 and βTrCP monoubiquitylates Perforin-2 in response to pathogen associated molecular patterns such as LPS. Perforin-2 (MPEG1) is an effector of the innate immune system that limits the proliferation and spread of medically relevant Gram-negative, -positive, and acid fast bacteria. ![]()
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