Life At Risk: Infectious Disease Chapter 18
Virus Noncellular infectious agent Consists of protein wrapped around a nucleic-acid core Cannot reproduce itself; can only be reproduced using a host cell
Viral Body Plans Genetic material is DNA or RNA Coat is protein Complex virus (bacteriophage) Polyhedral virusHelical virus
Enveloped Virus (HIV) lipid envelope; proteins span the envelope, line its inner surface, spike out above it viral coat (proteins)
Replication of an Enveloped Virus DNA replication Transcription of viral genes Translation Proteins Assembly
Prions Small proteins Linked to human diseases –Kuru –Creutzfeldt-Jakob disease (CJD) Animal diseases –Scrapie in sheep –Bovine spongiform encephalopathy (mad cow disease)
Bacteria Were first living organisms Prokaryotic
Bacterial Characteristics No membrane-bound nucleus Single chromosome Cell wall in most species Prokaryotic fission Metabolic diversity
Bacterial Shapes coccusbacillus spirillum
Prokaryotic Body Plan bacterial flagellum pilus capsule cell wallplasma membrane DNA ribosomes in cytoplasm
Bacterial Genes Bacteria have a single chromosome –Circular molecule of DNA Many bacteria also have plasmids –Self-replicating circle of DNA that has a few genes –Can be passed from one cell to another
Prokaryotic Fission
Antibiotics Can destroy or inhibit the growth of bacteria and some other microorganisms Have no effect on viruses Antibiotic-resistance is a growing problem
Parasitic Protozoa Entamoeba histolytica - amoebic dysentery Giardia lamblia - giardiasis
Parasitic Worms Pinworms Tapeworms Hookworms Ascaris roundworms
Malaria Symptoms known for more than 2,000 years Most prevalent in tropical and subtropical parts of Africa Kills a million Africans each year Caused by four species of Plasmodium Transmitted by Anopheles mosquitoes
Plasmodium Life Cycle sporozoites merozoite Male and female gametocytes in blood sporozoites Gametes form in mosquito gut, combine to form zygotes Offspring enter blood, cause malarial symptoms
Disease Transmission Direct contact with a pathogen Indirect contact Inhaling pathogens that have been spewed into the air Contact with a vector
Disease Patterns Sporadic disease (whooping cough) Endemic disease (common cold) Epidemic (cholera in Peru) Pandemic (AIDS)
Virulence Relative ability of a pathogen to cause serious disease Low virulence - common cold High virulence - rabies
AIDS Combination of disorders that follows infection with HIV Includes –Yeast (Candida) infections –Pneumocystis pneumonia –Karposi’s sarcoma
HIV Replication (1) RNA retrovirus A protein (gp120) at virus surface binds to host cells with CD4 and chemokine receptors These receptors occur on helper T cells Once bound, RNA and viral enzymes enter the host cell
HIV Replication (2) Viral RNA is reverse-transcribed to DNA HIV DNA is called provirus; it inserts into host DNA The host cell makes copies of viral DNA and viral proteins that assemble to form new virus particles
T-Cell Decline Release of new viral particles kills the host T cell The body is constantly making new T cells, but cannot outpace the rate of destruction As infection proceeds, T-cell numbers inevitably decline
Effect of T-Cell Decline CD4 helper T cells play a vital role in immune function They are required for both cell-mediated and antibody-mediated immunity Infected individual becomes vulnerable to other infections, which eventually result in death
Transmission of HIV HIV does not live long outside human body Most often spread by exchange of bodily fluids with an infected person Sexual intercourse and needle sharing are main modes of transmission
Human Papillomaviruses HPV can cause bumplike warts on the genitals and anus One strain, 16 HPV, does not cause symptoms It can lead to cancers of cervix, vagina, vulva, penis, and anus There is no cure