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Samenvatting Neurogenetics

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Dit document bevat alle 10 lessen van het keuzevak Neurogenetics, met de laatste 5 lessen 'Disease focus'. Elke les is uitgeschreven naar de woorden van de prof en hoort samen bij de gegeven powerpoints. De titels van de dia's zijn geschreven in het document als titeltjes met een streep onder.

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Neurogenetics
Exam: written exam with part multiple choice and open questions.

28/02

Neurological disorders

Classification system

 These are all valid ways to define the diseases
 No good or bad way to do classification but helps to keep track for all the diseases discussed
here

Movement disorders

 Parkinson disease is the most common of these
 Many others and they are all caused by the defected cerebellum
o Can have diseases with a too fast or a too slow movement
o Hypokinetic = too slow, hyperkinetic = too fast
 Ataxia
o Has different types, where people have difficulties with moving and speaking
o Some are genetic and others can happen by alcohol or for example gluten intolerance
o Can cause heart problems, is different within every person
o Took over a decade to diagnose

Dementias

 Frontotemporal and Prion see next classes

Diseases of the white matter

 Myelin is normally formed and afterwards distructed
 It is formed from the beginning as a problem, or destructed later (like in MS)
 Multiple sclerosis

Neuromuscular disorders

 the upper and the lower
 ALS is an example of this
o Is a deadly disease that affects the motor nerve cells
o People become independent on others for help
o Frontotemporal dementia can happen same time with ALS

Paroxysmal disorders

 These occur unexpectedly and in episodes

Neurodevelopmental disorders

 Things like fragile X

Neurocutaneous disorders

 Neurofibromatosis type 1 (NF1)
 Tuber sclerosis complex

1

,  These tumors are in the brain and these cause epilepsy, they do not die but have other
effects and disabilities

Cerebrovascular diseases

 Genetic form of the disease is known as CADASIL
o Causes a lot of blood vessels in the brain

Major adult psychiatric disorders

Factors suggesting a neurogenetic disorders

 How to recognize if it is genetic?
o If it is inside a family
 It can be genetic but not in a family and vice versa
o Neurologists have combinations of symptoms for certain diseases and certain genetic
factors can be the sign of a disorder
o Subtle onset with a chronic, progressive cause
o Consanguinity
 When the parents are related to one another
o Increased frequency in a certain ethnic group
 Why would somebody have multiple individuals with the disorder in the family but is not
genetic?
o Environmental factors
o Age (Alzheimer for example because also common disease) = sporadic cases
o It can skip a generation, can be because there is a recessive gene
 Genetic but not in the family?
o De novo mutations
o Early death in the family
o Non paternity
 When the dad is not the dad

Inheritance patterns

 Examples
o First one is recessive because the parents are not affected
o Second example is dominant
 You expect 50% to be affected, here not the case because lot of people have
died already
o Third example is recessive because the parents are not affected
 You only see males that are affected (so might be X-linked)

Most patients/families affected by neurological disorders

 Not everyone that has the mutations presents symptoms = reduced penetrance
 A disease may not always be mono genetic but mutations can come together and you might
need 2 mutations or more to have a disorder and thus have a disease

From monogenic to complex diseases

 If you add more genes  oligogenic or complex where multiple genes play a role
 A single disorder can present in many different ways

2

, o The same disease can need one, or 2 or more genes
 The more genes come together, the more different the phenotypes get of the person
o Every time there is a slightly different phenotype, whilst the different persons have
the same disease
o Is because different genes that play a role in the disease

Impact of gene discovery

Gene identification methods

 Linkage analysis
o Based on the sharing of pieces of DNA between persons, measured by a LOD score
o You use STR markers, need 400-1000 markers for the genome
o You find a locus and do sequencing analysis in that reason, to find the gene that has
the mutation
o The challenge is that you need large families to do this
o Phenocopies and reduced penetrance will mess up the analysis
 Phenocopy is somebody who has the exact same phenotype as everyone else
in the family but does not carry the gene
 Population genetics
o Use unaffected individuals
 A person that is unrelated and a control needed
o Have to be careful that the cases and the control are well matched
o When people did association studies, people would take one gene at a time
 Did work sometimes
o Genome-wide association study
 The standard now for common variants in the population to use
 Manhattan plot are the different chromosomes and every dot is a different
variant
 The higher the variant, the more significant the p-value
 P < 5x10^-8
o Needed to say it is significantly associated with the disease
 Anything above the line means this variant is a risk factor for the
disease
 Polygenic risk scores
o You need the effect size
o Apply information to an individual and calculate the persons risk
 So information from the population that you apply on individual level
 Exam!
 You need a large population to come up with the effect size of a specific
variant and then you pull the variants together
 You take a single individual one at a time and then calculates its
personal risk score
 Based on that individuals data but with the effect size of the
population
o Considerations
 You have to decide which variants to include

Burden analysis

3

,  Let’s say you look for blue variants
 We should group all coding variants in gene X
 All loss-of-function variants in gene X
 it shows if you choose carefully and combine them in a burden analysis, you can also find rare
variants
o common variants GWAS

common vs rare

 in burden analysis the variants have a weaker effect like risk factors
 common variants with GWA
 common variants with strong effects are different to identify
 need to be able to place the studies in the wright part of the figure for the exam

example of ALS (Amyotrophic lateral sclerosis)

 many different genes can be present
 familial
o SOD1
o ALS2
o C9orf72 (see later)
 More than 20 different genes known, found in families and in sporadic individuals
 Oligogenic basis of ALS
o Often families where there is reduced penetrance, oligogenic disease and phenotypic
heterogeneity
 They often come together in the families
 Gene x Environmental interaction in ALS
o Interaction between genetics and environments, also in ALS
 ALS risk genes identified through GWAS
o 15 different risk loci found
 Polygenic risk score
o Overlap between the risk for ALS and the risk for schizophrenia is shown
 Exome sequencing study in ALS
o Type of analysis if we want to go beyond families = Burden analysis  is done here

Mutations affecting the coding sequence

 A gene can be coding in one sequence but not in another, there are multiple transcripts and
can have different effects

Nonsense-mediated decay

 Is an mRNA surveillance mechanism
 If a mutation is introduced before the stop codon, better to get rid of the entire transcript
 Exon junctions complexes that are usually around the exons
 By the premature stop, degradation is triggered because the exon junction complexes are still
sitting there
 However when there is a mutation in the last exon or 55nt before, NMD does not work and
the exon junctions stay
o This can play a role in neurologic diseases



4

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