Evolution, 4th Edition

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EvoluTion And SoCiETy 591


they become apparent; furthermore, a cancer often has had multiple origins. Ani-
mals have evolved several mechanisms that reduce the incidence of cancer, such
as tumor suppressor genes and immune surveillance, but selection among cells
favors mutations in a cancer genome that help cells evade these mechanisms, just
as it does in pathogenic microbes. Several ideas about possible cancer therapies
that are based on evolutionary principles are being investigated. One of these,
adaptive therapy, aims to slow down the development of a cancer by using low
doses of drugs to control the cancer, thus allowing less aggressive clones within
the cancer to compete against more aggressive clones (FIGURE 22.5).

inFECTiouS diSEASES Some of the diverse bacteria, viruses, protists, and hel-
minths that cause infectious diseases have been associated with human ancestors
for millions of years; others (emerging diseases) are quite new. Pathogens that
cause infectious diseases in humans range from those that are mostly endemic to
other animals and only occasionally infect humans (e.g., rabies), through those
that are animal-borne but can be transmitted among humans to a greater or
lesser extent, to those that are specific to humans, such as the agents that cause
smallpox, syphilis, and measles (FIGURE 22.6).

Futuyma Kirkpatrick Evolution, 4e
Sinauer Associates
Troutt Visual Services
Evolution4e_22.05.ai Date 02-02-2017

1500

1000

500

2500

2000

8070 90 100 110120 130 140 150 160 170 180 190200
Days after cell injection

0

Control
Standard therapy

Adaptive therapy

Mean tumor burden (mm

3 )

FIGURE 22.5 Tumor development in mice that were
given a lower dose of therapeutic chemicals (adaptive
therapy) was slower than in mice given the standard
high-dose therapy. Adaptive therapy is based on the
hypothesis that within a tumor, competition among
clones may reduce the growth of aggressive clones
if less aggressive clones are allowed to survive. (From
[108], after [48].)

Futuyma Kirkpatrick Evolution, 4e
Sinauer Associates
Troutt Visual Services
Evolution4e_22.06.ai Date 12-19-2016

Stage 1
Animal-exclusive
Pathogen present in
animals but has not
been detected in
humans.
Examples
Most malarial plasmodia
Feline leukemia virus

Stage 2
Primary infection
Under natural
conditions, pathogen
is transmitted from
animals to humans
but not among
humans.
Examples
Rabies
Anthrax
West Nile virus

Stage 3
Limited outbreak
Once acquired from
an animal pathogen,
infection can be
transmitted among
humans for a limited
number of cycles.
Examples
Ebola
Marburg virus
Monkeypox

Stage 4
Long outbreak
Infection by animal
pathogen can spread
among humans for
many cycles.
Examples
Yellow fever
Dengue fever
Cholera

Stage 5
Human-exclusive
Infection is exclusive
to humans.
Examples
Measles
Smallpox
Syphilis

FIGURE 22.6 The ecological relationships among pathogens, humans, and nonhuman hosts can be
expressed as five stages of increasing cycling within human populations. Whether or not all patho-
gens in the higher stages have evolved through the lower stages is not yet known. Some exemplar
pathogens are given for each stage. (After [122].)

22_EVOL4E_CH22.indd 591 3/22/17 1:49 PM

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