Evolution in health and disease / edited by Stephen C. Stearns and Jacob C. Koella.

Format:

Book

Contributor:

Stearns, S. C. (Stephen C.), 1946-

Koella, Jacob C.

Series:

Oxford biology.

Oxford biology

Language:

English

Subjects (All):

Medical genetics.

Human evolution.

Diseases--Causes and theories of causation.

Diseases.

Physical Description:

xxi, 374 p. : ill.

Edition:

2nd ed.

Place of Publication:

Oxford ; New York : Oxford University Press, 2008.

Summary:

A fully revised edition of a volume written by the world's leading authorities on this subject. It discusses how the evolution of humans and their pathogens have generated important medical issues, covering both infectious and degenerative diseases. It presents important ideas that are not yet sufficiently appreciated in the medical community.

Contents:

Intro

Contents

List of Contributors

Part I: Introduction

1 Introducing evolutionary thinking for medicine

Introduction

Mismatched to modernity

Infection

Reproduction

Populations have histories

Evolutionary technologies

The nature of evolutionary explanations

Natural selection

Random events and neutral variation: how neutral evolution works

Trade-offs

Macroevolution

Conclusion

What doctors need to know about evolution and why

Part II: The history and variation of human genes

2 Global spatial patterns of infectious diseases and human evolution

Geographical aspects of human diseases

Pathogen distribution and human genetic evolution

Infectious diseases and human life-history traits

Summary

Acknowledgments

3 Medically relevant variation in the human genome

Molecular markers

Linkage disequilibrium, recombination and haplotype blocks

The HapMap project

Structural variation

Inference of evolutionary processes

Causal SNPs and the magnitude of their effects

4 Health consequences of ecogenetic variation

Genetic basis of variation in drug metabolism and response

Genetic basis of monogenic drug reactions

Genetic basis of complex pharmacogenetic traits

Genetic basis of chemosensory perception and food preferences

The structure of human populations

Conclusions

5 Human genetic variation of medical significance

The pattern of human genetic variation

Complex disease and evolution

Part III: Natural selection and evolutionary conflicts

6 Intimate relations: Evolutionary conflicts of pregnancy and childhood

Parental justice

Internal conflicts

Credibility problems.

Pregnancy termination

Maternal circulation

Preeclampsia

Growth

7 How hormones mediate trade-offs in human health and disease

Introduction: Hormones, life history, evolution, and health

Hormones and trade-offs in males

Hormones and female reproductive trade-offs

Contemporary medical implications

8 Functional significance of MHC variation in mate choice, reproductive outcome, and disease risk

Genes of the major histocompatibility complex

Pathogen-mediated selection on MHC genes

Sexual selection on MHC genes

MHC-linked olfactory cues

MHC and reproductive outcome

HLA-G in reproduction, immune regulation, and disease

The cost of protection: non-adaptive consequences of MHC diversity

9 Perspectives on human health and disease from evolutionary and behavioral ecology

Phenotypic plasticity

Kin selection theory

Life-history theory

Parental investment theory

Sexual selection theory

Part IV: Pathogens: resistance, virulence, variation, and emergence

10 The ecology and evolution of antibiotic-resistant bacteria

History of clinical antibiotic resistance

Genetic mechanisms

Natural ecology

Population genetics

Applying evolution/approaches for the future

11 Pathogen evolution in a vaccinated world

Vaccines have consequences for pathogen evolution

Why has vaccination worked despite evolution?

Pathogen adaptation in vaccinated populations

The health consequences of vaccine-adapted pathogens

Predicting evolution

Watching evolution

Coda

12 The evolution and expression of virulence

Introduction.

Outline of this chapter

Defining virulence

Artificial virulence evolution and live vaccines

The three phases of the evolution of infectious diseases

Mechanisms of virulence remain to be considered

Variation of hosts impacts the expression and evolution of virulence

Virulence has a direct benefit for the parasite

Can we manage the evolution of virulence?

13 Evolutionary origins of diversity in human viruses

Origins of human viruses

Origins of diversity within human viruses

Herpesviruses

AIDS viruses

Influenza A viruses

Dengue viruses

Comparisons among viruses

14 The population structure of pathogenic bacteria

Population structure

Effective population size

Helicobacter pylori

Streptococcus pyogenes

Salmonella typhi

Further considerations

15 Whole-genome analysis of pathogen evolution

Long-term evolution of pathogens

Short-term evolution of pathogens

Stochastic variation/hypermutability

16 Emergence of new infectious diseases

Which diseases emerge?

Disease emergence as a biological process

Examples of emerging infectious diseases

Practical implications of disease emergence

17 Evolution of parasites

Virulence and transmission in public health and evolution

The evolution of virulence in control programs

The problem of virulence

The problem of the trade-off

Beyond the trade-off model

A molecular and an experimental approach to the evolution of parasites

Part V: Noninfectious and degenerative disease

18 Evolutionary biology as a foundation for studying aging and aging-related disease

Defining and measuring aging.

The canonical evolutionary models of aging

Molecular mechanisms of aging

Merging molecular mechanisms with evolutionary theory

Going beyond traditional evolutionary models of aging

Concluding remarks

19 Evolution, developmental plasticity, and metabolic disease

Introduction: diseases of excess or deficiency?

The developmental origins of health and disease (DOHaD) paradigm

Epigenetic mechanisms

An integrated response to developmental cues

A developmental and evolutionary synthesis

Medical and public health implications

20 Lifestyle, diet, and disease: comparative perspectives on the determinants of chronic health risks

Evolutionary energetics

Influence of lifestyle change on daily energy expenditure

How changes in lifestyle influence energy intake and diet composition

Health consequences of energy and nutritional imbalances

21 Cancer: evolutionary origins of vulnerability

Introduction: a risky species?

Evolutionary basis of vulnerability to cancer

Lack of perfection in evolutionary engineering

Evolutionary adaptation has 'no eyes to the future'

The inevitability of natural selection

The only evolutionary currency is reproductive success

Implications

22 Cancer as a microevolutionary process

The concept of somatic evolution as a way of thinking about cancer

Cancer initiation and chromosomal instability

Chronic myeloid leukemia (CML) and resistance against small molecule inhibitors

23 The evolutionary context of human aging and degenerative disease

Aging as a by-product of selection for reproductive performance

Genes and aging

References

Index

A

B

C

D.

E

F

G

H

I

J

K

L

M

N

O

P

Q

R

S

T

U

V

W

X

Y

Z.

Notes:

Includes bibliographical references (p. 313-363) and index.

Description based on metadata supplied by the publisher and other sources.

Description based on publisher supplied metadata and other sources.

ISBN:

0-19-154876-6

1-4356-4115-9

1-281-37136-X

9786611371364

OCLC:

476241475