topic 6.3- defence against infectious diseases Flashcards
describe the body’s primary defence mechanism
the skin and mucous membranes form a primary defence mechanism against pathogens that cause infectious disease
skin
- outermost layer is tough and provides a physical barrier against the entry of pathogens and physical/chemical damage
- sebaceous glands are associated with hair follicles and secrete sebum, which maintains skin moisture and slightly lowering skin pH, which inhibits the growth of bacteria and fungi
mucous membranes
thinner and softer type of skin found in airways and reproductive organs
- the mucus secreted is a sticky solution of glycoproteins and traps pathogens, which are either swallowed or expelled, acting as a physical barrier
- also has antiseptic properties due to the presence of the anti-bacterial enzyme lysozyme
how are cuts in the skin sealed?
- platelets aggregate at the site forming a temporary plug
- they release clotting factors that trigger off the cascade of reactions involved in the clotting process
- this cascade results in the production of thrombin, an enzyme, which converts the soluble protein fibrinogen into the insoluble fibrin
- the resulting clot is initially a gel but if exposed to the air dries to form a hard scab
Use of phagocytes in defence
- ingestion of pathogens by phagocytic white blood cells gives non-specific immunity to diseases
- they engulf of pathogens by endocytosis and digest them with lysosomes (enzymes)
Use of antibody production in defence
Production of antibodies by lymphocytes in response to particular pathogens gives specific immunity
define an antigen
any chemical that stimulates an immune response
define a specific immune response
- the production of one type of antibodies specific to a particular pathogen’s antigens by lymphocytes
describe the steps of antibody production
- antigens on the pathogen stimulate cell division of the small group of lymphocytes that produce the appropriate antibody
- plasma cells (large clones of lymphocytes) are produced within a few days and secrete large quantities of the antibody
describe the role of antibodies
antibodies are large proteins that have two functional regions: a hyper variable region that binds to a specific antigen and another that helps the body fight the pathogen by
- making it more recognisable to phagocytes
- preventing viruses from docking to and entering host cells
some of the lymphocytes produced during an infection are not active plasma cells but instead become
memory cells
immunity to a disease involves
either having antibodies against the pathogens or memory cells that allow rapid production of the antibody
describe the function of antibiotics
block processes that occur in prokaryotic cells but not eukaryotic cells. For example, bacterial DNA replication, transcription, translation, ribosome function and cell wall formation.
what is the issue with widespread antibiotic use?
some strains of bacteria have evolved with genes which confer resistance to antibiotics and some strains have multiple resistance
why can viral diseases not be treated using antibiotics?
Being non-living, they rely on the host cell’s enzymes for ATP synthesis and other metabolic pathways. These processes cannot be targeted by drugs as the host cell would also be damaged.
