Evolutionary Medicine PDF

Summary

These notes cover evolutionary medicine, discussing how pathogens and tumors evolve, the adaptive immune response, and evolutionary mismatch. They explore the role of evolution in understanding disease, covering topics from micro- and macroevolution to the trade-offs between reproduction and maintenance. The notes also address plasticity and life history, with a look at the impact of human evolution on health.

Full Transcript

VL 1 Evolution in action -> Pathogen and tumor evolution is ongoing and somewhat predictable “Could this virus mutate and kill 90% of the population? Probably” - Can’t kill too fast in order to spread - Virus adapts to become successful at both: → Virulence/ transmission tradeoff...

VL 1 Evolution in action -> Pathogen and tumor evolution is ongoing and somewhat predictable “Could this virus mutate and kill 90% of the population? Probably” - Can’t kill too fast in order to spread - Virus adapts to become successful at both: → Virulence/ transmission tradeoff (Bad transmission if too low virulence, because not enough replications) - Vaccines, social distancing, etc. affect viral evolution - Bacteria: Selection and adaptation happens very fast (Short generation time) - Antibiotics already existed in nature (fungi, mold) “Always finish the full course of antibiotics” - ??? - Kills all, but selects for resistance more! → Resistant grow and take over (Usually have cost in the mix with non-resistance types bc of additional enzymes) - Some bacteria give their drug-resistance to other bacteria, causing more problems - Alternatives: Fecal transplant therapy, drug cocktails (diff. Antibiotics, overlapping), better use in hospitals, phage therapy (use viruses that stick to bacteria; viruses evolve even quicker than bacteria) - Same process in cancer (Chemotherapy can select for resistance) - Resistance clumps not targeted by chemotherapy - Alternative treatment: Adaptive therapy (Control, not eliminate) - Evolution in action: Adaptive immune response Many lymphocytes with highly variable receptors are generated (--> Largest library in the universe) When a pathogen/ foreign antigen arrives look for the cell with just the right receptor → If respond, allowed to replicate → Highly specific attack thanks to variation and selection! - Breast cancer risk about 100 times higher!! (Due to lactation and pregnant period → Evolutionary mismatch) - Paleopathology: Agriculture: Was bad for health at first (Narrow diet (-> deficiencies); Malnutrition, relying on only very few species, especially weather; more infectious diseases (People live more densely) - → From acute to chronic disease (More hygienic life, less opportunity to learn for immune system (more autoimmune disorder)) What does evolution add to medicine? Usually: Proximate level - How does the mechanism work? Intervene with mechanism. But: Ultimate level - WHY/ Where does it come from (history)? What is it good for (function)? - Myopia (nearsightedness) not very prevalent in hunter-gatherers, but now (artificial light, indoors) BUT: It is inheritable and only expresses in the modern lifestyle!!! - Fever - we think of it as a disease but actually raises body temp. slow pathogene replication - Iguanas (cold blooded) injected with bacteria - Raise body temp. With heat lamp - Treat with antipyretic (unable to raise temp) - More likely to die! - Similar found in rabbits → CHANGE in body temp is important! - !!!Heat Trial (2015) - Patients with fever assigned acetaminophen - No clear benefits with fever!! - → Smoke detector principle: Our bodies tend to overreact! - Error 1: False alarm - smoke detector goes off falsely - Error 2: Fail to alarm - smoke detector goes NOT go off despite fire - Error 2 >>>> Error 1 → Evolutionary adapted - → Reducing fever often not harmful; also applies to mental health - Evolution is all about reproductive success, not survival (healthy, well-being, etc.) - Survive into adulthood, ggf. post-reproductive years to help grandkids - Male reproductive effort is often concentrated in young adulthood, at the expense of longevity (in comparison to women who don’t die off as quickly → If they stay healthy for longer they can achieve more reproductive success) Woman play the long game vs. men earlier on - Trade off: Reproduction vs. maintenance = Ageing (Evolution favors reproduction) - Force of selection declines with age, once we start reproducing → “Selection shadow” (Things happening in old age not as visible to evolution) → Natural selection favors a limited lifespan → Antagonistic pleiotropy: Alleles that are beneficial early in life will spread even if detrimental later in life (e.g. many oncogenes) VL 2 - Evolutionary Theory, Adaptation and Selection, Micro- and Macroevolution - Microevolution = How organisms become adapted to their environments (changes with one species) - Macroevolution = Origins of species, diversity of life (e.g. hereditary tree) - Evolution = Changes in traits over generations - Variation among individuals - Variation influences survival and reproduction - Variation is heritable (genetic basis) - → Natural selection - → Adaptations (design) - Source of variation: Mutation and recombination (meiosis) → Mutation is random, selection not! - Selection = “Survival of the fittest” (-> Fittest: Best adapted to environment) - Selection pressures: Predators, disease & parasites, access to food, access to mates - Adaptation = An inherited trait that makes an organism more fit in its environment; has arisen due to selection - Convergent evolution = Similar selection pressures produce similar adaptations, though not always by the same means (evidence for adaptation by natural selction) - Currency of adaptation: Fitness=Expected reproductive success of an individual with a specific trait, relative to other members of the population. --> Fitness depends on environment: Local adaptation and mismatch (in space) - E.g.: Skin color dark along equator: Save melanin production if not needed + Vit. D production (even if well protected enough production along equator) - Liver enzyme production thorough CYP2D6 gene → Duplications: Higher frequency of liver enzyme → Different in different populations → Medical consequences: Medication metabolism - Why do traits not change all the time? - Existing variants well adapted to their environment - Only adaption to change in environment - - Adaptation: - !!!Medicine: More for physiology (e.g. at the moment adapting to temp. in room) - Evolution: To environment - Evolution hard to see when long generation times → Comparative methods, genetics, fossil record, laboratory studies → E.coli 8760 generations/year - Balanced selection = Heterozygous advantage - E.g.: Sickle-cell anemia: - Heterozygous: Changed hemoglobin structure, Less prone to Malaria, no sickle cell-anemia - Homozygous: Sickle Cell-anemia, few malaria resistance, short life expectancy —> It’s all about passing your genes on! Selection will be ongoing as long as people vary in how many kids they have!! - Sexual selection: Trade-off with immune system - Male-male competition: High testosterone levels -> Chance for prostate cancer increases - Modern human environment is very dependent on culture/ technology (Insulation from climate, food production (fermentation), removed parasites (immune system less trained), repair bodies, increase physical performance, etc.) - Intervenience natural selection: 98% reach reproduction period, increase infertile gene (assisted reproduction technology) → Accumulation less favorable genes, diseases, increased intragroup variability !!!NOT all evolutionary change due to selection, not all traits adaptations → BY CHANCE, TOO!!! VL 3 - Evolutionary Medicine: Plasticity and life history Developmental plasticity = Different species able to react within their genetic makeup in different ways to environmental conditions. (Narrow reaction norm, broad reaction norm, alternative trajectories(worker/queen bees) - Reaction norm = Expresses the phenotype as a function of the environment; makes the variation you observe in a population - Plasticity changes over multiple generations (e.g. 10-year old boys in Brandenburg smaller possibly due to physical activity, nutrition, migration) - - Epigenetics - Reasons: Turn genes on & off during development - Mechanism for predictive adaptive response (“epigenetic memory”) - Mostly get erased in early zygote (“imprinted” genes stay) - Developmental plasticity: Programming according to expected environment (Optimal environment: Investment in longevity; Threatening environment: Altered reproductive strategy(early), ensure survival to birth, adjustments to resist threatening and difficult environment) → Tradeoff btw. Immediate survival and future health (Birth weight = high mortality/ morbidity) - Holländischer Hungerwinter - Epigenetic transmission through generations!!! - - →Risk of disease accumulate over time!! - Dual burden in developing countries: Usually: - Less disease, more food —> 1) Taller population - Too much to eat → 2) Obesity - BUT: Third world countries both!!! - Life history theory: Two main strategies - Small, lots of offspring(few survive), reproduce early, die young vs. grow slow&big, reproduce late, invest in offspring, live long → Timing of events in the lifespan → Increasing body mass (also brain size) comes with longer life! (& later reproduction) - - Human life history - Long investment in skills, multiple stacked offspring, supplemented by parents & grandparents - Demographic transition - - Switzerland: More middle-age people than young people - Antagonistic pleiotropy = Genetic variants that are beneficial at young age, but increase the risk of disease at older age. (e.g. cancer, cystic fibrosis, coronary heart disease, Alzheimer, Huntington’s disease) - Costs and benefits within transition to modernity VL 4 - Human Evolution and Human Biological Variation - Charles Darwin: - Right: - Humans evolved in Africa - Humans are one species - Unique traits: Bipedalism((Two legs), technology, large brains, small canines - Wrong: - Unique traits evolved at the same time - There are distinct races - Europeans are superior to other races, men to women → Human origin as field of study → Science is done by people (many biases!!!) → Knowledge improves as more evidence accumulates - Humans share many traits with other mammals (e.g. hair, life birth, gastation); All primates: e.g. Hands (hold on to branches), larger brains, slower life histories Uniquely human: No tails, sleep in nests, etc.k HUMANS ARE PRIMATES! - Human Evolution is not linear -> Many small, slow steps! Process never necessarily lead to our species! -Upright walking proceeds brain expansion! - Different homini species co-existed! - Svante Pääbo: 2022 Nobel Price in Medicine: “For his discovery concerning the genomes of extinct(ausgestorben) hominis and human evolution” (e.g. discovered entirely new species Denisova” - Method: Extract DNA from remains -> Sheds different view on history of coexistence - What made the Genus Homo? - Humans had to deal with fluctuating temperatures for most of human history -> Genetic inheritance isn’t useful when environment is constantly changing! (Listen to elderly people how to live!) -> Development of certain traits: - Cooperative breeding (impossible to raise child alone) - Allows for high human fertility despite slow development - BUT: Hard to raise child alone -> Post-partum depression, selective neglect, infanticide, etc. - Cumulative culture - Omnivorous, extractive diet ( = Consume variety of food sources) → More complex sociality (Social, cognitive changes-> Vulnerable to certain diseases!) → Response to variability depending on time scale: Long (many gens): Genetic adaption Fast ( Self-medication (BUT: Vulnerable to addiction!) & COOPERATION - African Americans are more likely to die at early ages from all causes!! Not genetic! - Out-of-Africa: ca. 100`000 years ago - !!!Humans share >99% of the genome with each other & chimps; 50% with bananas - As humans expanded across globe -> Some local genetic adaptation due to new selection pressures, e.g. pathogens. Diet, altitude, UV radiation, etc. - Genetic information can be used to reconstruct population history/ ancestry; BUT: Most variation neutral (most mutations: silent without function); AND: continuous variation going in different directions !!!! Variation within >>>>> btw. Populations!!! - Most adaption was cultural, not genetic (e.g- build iglu) - Race as a social construct; BUT: Racism cause health disparities (e.g. psychological stress, socio-economic deprivation, health inequity, e.g. vicarious racism->shortened telomeres) ASK: WHAT IS THE ENVIRONMENT OF THESE PEOPLE LIKE? - Health disparities in other species: e.g. stress-eating, higher inflammation in subordinate monkeys (but NOT if dominant animal) - Obesity paradox: Poor people who face food scarcity - Overeat more! - Lifetyme exposure to Testosterone -> Prostate cancer risk - Population differences in T levels -> Prostate cancer Envrioment -> Biology -> Health - People living in worse neighboorhood reproduce earlier, age faster - Also here: Immigrants from low-income countries at greater risk for being overweight - Envriomental causes e.g. trauma, stress, migration, discrimination, current poverty/ social status, developmental mismatch (over- -> undernutrition) - Epigenetic inheritance, maternal effects -> Takes several gens to adapt → Environment has stronger effect on health than genetic ancestry!!! → Public health interventions >> new medicines —> Public health = Politics

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