Immunology Exam 1 - Questions and Answers The importance of complement activation as an innate immune defense against infections is illustrated by: A.
... [Show More] The evolution of complement avoidance strategies by many pathogens B. The large number of proteins involved in the complement pathway C. The large number of complement regulatory pathways expressed by the host D. The existence of three different mechanisms for initiating complement activation E. The ability of the membrane attack complex to lyse some pathogens True/False: Several pathogens produce proteins, either membrane-bound or secreted, that inactivate C3b that might be deposited on the pathogen surface. C3b is specifically targeted due to its central position in all three complement pathways. True Most normal tissues contain resident macrophages, and connective tissue sites in the gastrointestinal tract and the lung contain large numbers of these cells. Yet the blood also contains a high number of circulating 'classical' monocytes that can differentiate into macrophages after entering tissues. These circulating monocytes function to: A. Phagocytose and kill pathogens in the blood B. Line the endothelial surfaces of the blood vessels with phagocytic cells C. Enter lymph nodes and patrol for infecting microbes in these organs D. Amplify the local innate immune response by entering tissues that are infected E. Differentiate into dendritic cells during an inflammatory response True/False: Dendritic cells are tissue resident myeloid cells that are highly phagocytic, like macrophages. However, dendritic cells do not play a major role in large-scale pathogen destruction; instead, they are important in initiating adaptive immune responses of T cells. True Mycobacteria are intracellular pathogens that have adapted to life inside phagocytic cells, such as macrophages. These intracellular bacteria are taken up by phagocytosis, similar to other pathogens, but the bacteria are not killed. One possible mechanism that could account for this immune evasion by mycobacteria is their ability to: A. Prevent induction of nitric oxide production in the phagosome B. Prevent the acidification of phagosomes C. Prevent the expression of antimicrobial peptides in the phagosome D. Prevent fusion of phagosomes with lysosomes E. Kill the macrophage before it kills them Macrophages express multiple types of receptors on their surface that stimulate phagocytosis of microbes, leading to pathogen internalization and destruction. Many of these receptors, such as Dectin-1, rely on direct recognition of a PAMP on the pathogen surface. However, some receptors that stimulate phagocytosis rely on soluble factors (not associated with the phagocyte membrane) to identify and mark the pathogen for uptake by the phagocyte. One such receptor is: A. The mannose receptor B. The class A scavenger receptor C. The lipid receptor D. The macrophage C-type lectin receptor E. The complement receptor An infection in the skin, such as a pimple, often produces pus. The major component of pus is: A. Toxic oxygen molecules released by macrophages B. Toxic nitrogen molecules released by macrophages C. NETs released by neutrophils D. Dead epithelial cells killed by lysozyme E. Dead and dying neutrophils When stimulated by binding to bacterial products, the fMet-Leu-Phe (fMLF) receptor triggers multiple responses by phagocytes, including migration and induction of antimicrobial activities. Most of these responses are activated by small GTPases of the Rac and Rho families that are indirectly activated by fMLF receptor stimulation. The fMLF receptor can initiate multiple downstream signaling pathways because: A. It couples to a heterotrimeric G protein that has and subunits with independent activities. B. It couples directly to two different guanine nucleotide exchange factors (GEFs). C. It binds to Rac, Rho, and cdc42 directly. D. It promotes fusion of phagosomes with lysosomes, initiating multiple signals. E. It induces assembly of multiple enzymes from individual cytosolic components. True/False: The inflammatory response is characterized by four classic symptoms: heat, redness, pain, and swelling. In some instances, this response can be triggered by stimuli that are non-infectious such as asbestos, a process known as 'sterile inflammation.' When exposure to the stimulating trigger is persistent, a state of chronic inflammation can result. This process is likely to be detrimental to the health of the host. True Many of the inflammatory mediators produced by tissue macrophages at sites of infection act on the endothelial cells lining the blood vessel walls. An exception to this is (are) the: [Show Less]