Genetic Disorders 1-67_SSU_Inter.pdf

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GENETIC DISORDERS

School of Allied Health Sciences
Walailak University

MTH65-204 Sec 1: Asst. Prof. Dr. Yanisa Rattanapan
Sec 2: Asst. Prof. Dr. Wetpisit Chanmol
Sec 3: Asst. Prof. Dr. Sirirat Surinkaew
MTH64-203E Asst. Prof. Dr. Sirirat Surinkaew
LEARNING OBJECTIVES
1. Explain the meaning of mutations
2. Explain principles and give examples of
ü Single-gene disorders, chromosomal disorders, and
complex disorders
ü Monogenic genetic diseases (eg. autosomal dominant,
autosomal recessive and X-linked diseases)
ü Chromosome abnormality genetic disease
ü Multifactorial disorders
3. Explain type of genetic testing and indication
MUTATION 3

A mutation is a change in the DNA sequence
of an organism.
Mutations can result from errors in DNA
replication during cell division, exposure to
mutagens or a viral infection.
Germline mutations (occur in eggs and sperm) can
be passed on to offspring.
E.g., Sickle cell disease, cystic fibrosis, Tay Sachs
disease, and Huntington's disease
Somatic mutations (occur in body cells) are not
passed on.
E.g., Skin cancer, lung cancer, McCune-Albright
syndrome, and Sturge-Weber syndrome
Degree of mutations
1) Gene (DNA) mutation is a change in DNA molecules covers only 1 - 3 nucleotides.
2) Chromosomal mutation is a change related to the number or structure of a chromosome.
 GENE (DNA) MUTATION 4

Gene (DNA) mutation is a change in DNA
molecules covers only 1 - 3 nucleotides.
Substitution – one base pair is replaced by
a different base pair.
Insertion – addition of one or more
nucleotide base pairs into a DNA sequence
Deletion – a nucleotide is removed from a
DNA sequence.
Nonsense mutation – base to convert to
the genetic code, stop the polypeptide
chain.

https://saylordotorg.github.io/text_the-basics-of-general-organic-and-biological-chemistry/s22-05-mutations-and-genetic-diseases.html
 PEDIGREE
5

NOMENCLATURE

https://www.ncbi.nlm.nih.gov/books/NBK65817/figure/CDR
0000062865__1237/
 TYPES OF GENETIC DISORDERS
6

Single-gene disorders – where a mutation affects one gene.
Autosomal dominant
Autosomal recessive
X-linked dominant
X-linked recessive
Y-linked

Chromosomal disorders – where chromosomes (or parts of
chromosomes) are missing or changed.
Complex disorders – where there are mutations in two or more genes.
AUTOSOMAL DOMINANT
Familial Hypercholesterolemia (FH)
Hereditary Spherocytosis (HS)
Marfan Syndrome (MFS)
 AUTOSOMAL DOMINANT 8

Autosomal – gene in question is located on one of the non-sex chromosomes (autosomes).
Dominant – a single copy of the mutated gene (from one parent) is enough to cause the disorder.

Tobias ES, Connor M, Ferguson-Smith M. Essential medical genetics. John Wiley & Sons; 2011 Nov 15.
Dowell DR. NextGen genealogy: The DNA connection. ABC-CLIO; 2014 Nov 25.
 9

FAMILIAL HYPERCHOLESTEROLEMIA (FH)

It is caused by a defect on chromosome 19.
About 60-80% of people with FH have a mutation found in one
of LDLR, APOB, and PCSK9 genes, which affect how your body
regulates and removes cholesterol from your blood.
Defect makes the body unable to remove low density
lipoprotein (LDL, or bad) cholesterol from the blood.
Results in a high level of LDL in the blood
Narrowing of the arteries from atherosclerosis at an early
age
Increased risk of early onset of coronary artery disease
(CAD), even in childhood

https://medlineplus.gov/ency/article/000392.htm#:~:text=Familial%20hypercholesterolemia%20is%20a%20disorder,Familial%20combined%20hyperlipidemia
FAMILIAL HYPERCHOLESTEROLEMIA (FH) 10

Physical signs of FH
Xanthomas – fatty skin deposits
Hands
Elbows
Knees
Ankles https://webeye.ophth.uiowa.edu/eyeforum/atlas/pages/xanthelasma.html

Eyelids à Xanthelasmas
Angina – chest pain
Sudden stroke-like symptoms
Trouble speaking
Drooping on one side of the face
Weakness of an arm or leg
Loss of balance
http://thnm.adam.com/content.aspx?productid=117&isarticlelink=false&pid=2&gid=2490
 HEREDITARY SPHEROCYTOSIS (HS) 11

Erythrocytes is loss of membrane surface area relative HS
Normal RBC
to intracellular volume, which leads to spherically
shaped erythrocytes with decreased deformability.
Abnormalities in erythrocyte membrane proteins,
particularly ankyrin, α- and β-spectrin, band 3, and
protein 4.2
Increased erythrocyte fragility leads to vesiculation
and membrane loss.
Characteristic symptoms of HS
Hemolytic anemia – destruction of RBC in the
spleen and their removal from the blood stream
Jaundice – a yellow tone to the skin
Splenomegaly – enlarged spleen, splenic
destruction of poorly deformable HS erythrocytes
https://medizzy.com/feed/24694563
 MARFAN SYNDROME (MFS) 12

Tall and Thin
MFS is a spectrum of disorders caused by a heritable
genetic defect of connective tissue

Defect FBN1 gene on chromosome 15, which codes
Finger Length
for the connective tissue protein fibrillin.

Physical signs of MFS
Tall and thin with disproportionately long arms, legs, fingers and
toes
Longer Arms
Breastbone that protrudes outward or dips inward
Flat feet Flat feet
If aorta is affected, the condition can become life-threatening
Extreme nearsightedness
https://www.mayoclinic.org/diseases-conditions/marfan-
syndrome/symptoms-causes/syc-20350782
AUTOSOMAL RECESSIVE
Cystic Fibrosis (CF)
Phenylketonuria (PKU)
Galactosemia
Lysosomal Storage Diseases (LSDs)
 AUTOSOMAL RECESSIVE 14

A genetic condition can occur when the child inherits one copy of a mutated
(changed) gene from each parent (2 mutated genes).
Parents of a child with an autosomal recessive condition usually do not have the
condition.

Tobias ES, Connor M, Ferguson-Smith M. Essential medical genetics.
John Wiley & Sons; 2011 Nov 15.
Dowell DR. NextGen genealogy: The DNA connection. ABC-CLIO;
2014 Nov 25.
 CYSTIC FIBROSIS (CF) 15

CF affects the cells that produce mucus, sweat and digestive
juices.
1:2000 live births – most common lethal genetic
disease in white population

CF is abnormal function of an epithelial chloride channel
protein encoded by CF transmembrane conductance
regulator (CFTR) gene at 7q31.2.
Defect in the transport of chloride ions across epithelial
Defect in the exocrine glands – abnormally viscid
mucous secretions
Blockage of airways, pancreatic ducts, and biliary
ducts

https://www.yourgenome.org/facts/what-is-cystic-fibrosis/
 CYSTIC FIBROSIS (CF) 16

Respiratory signs and symptoms
A persistent cough that produces thick mucus
(sputum)
Wheezing
Exercise intolerance
Repeated lung infections
Inflamed nasal passages or a stuffy nose
Recurrent sinusitis
Digestive signs and symptoms
Foul-smelling, greasy stools
Poor weight gain and growth
Intestinal blockage, particularly in newborns (meconium ileus)
Chronic or severe constipation, which may include frequent straining while trying to pass
stool, eventually causing part of the rectum to protrude outside the anus (rectal prolapse)
https://en.wikipedia.org/wiki/Cystic_fibrosis
 PHENYLKETONURIA (PKU) 17

PKU is caused by an absence phenylalanine hydroxylase (PAH)
gene
PAH helps create the enzyme needed to break down phenylalanine
(Phe à Tyr),
PKU causes an amino acid called phenylalanine to build up in the
body.
Hyperphenylalaninemia since birth – impairs brain development
Most profound symptom
Learning difficulties – after 6 months, severe mental retardation,
IQ under 50
Behavioral disorders, such as hyperactivity, self-harm, and
epilepsy
Decreased pigmentation of hair and skin – absence of tyrosine

Early screening test – blood test given to newborns 24 - 72 hours after birth.
Main treatment for PKU is a low-protein diet that completely avoids high-protein foods (such
as meat, eggs, dairy products, potatoes, and cereals.
https://app.healthand.com/th/topic/general-
 GALACTOSEMIA 18

Galactose is a sugar contained in milk, including in both human breast milk and cow's milk–based.
Galactosemia is the inability to metabolize the milk sugar component galactose to glucose.
Caused by deficiency of galactose-1-phosphate uridyltransferase (GALT or G1PUT)
Symptoms of galactosemia
Convulsions
Irritability
Lethargy
Poor feeding -- baby refuses to eat formula containing milk
Poor weight gain
Yellow skin and whites of the eyes (jaundice)
Vomiting
Treated by completely eliminating milk and milk products
– the main source of galactose
Infants are typically fed a soy-based infant formula after diagnosis.

https://www.andersondiagnostics.com/newbornscreening/galactosemia/
 LYSOSOMAL STORAGE DISEASES (LSDS) 19

Lysosomes contain a variety of hydrolytic enzymes, involved in the breakdown of complex
substrates (sphingolipids and mucopolysaccharides, etc.) into soluble end products.

Lack of a lysosomal enzyme, catabolism of
its substrate remains incomplete, leading
to accumulation of substrates in excess
within the lysosomes.
At present, more than 50 LSDs are
known.
Symptoms of LSDs
Developmental delay
Movement disorders
Seizures
Dementia
Deafness
http://storagewaribun.blogspot.com/2016/12/lysosomal-storage-disease.html
Blindness
 X-LINKED RECESSIVE
Duchenne Muscular Dystrophy (DMD)
Color Blindness
 X-LINKED RECESSIVE 21

Mutations in genes on the X chromosome.
Male carrying such a mutation will be affected, because he carries only one X chromosome.
Female carrying a mutation in one gene, with a normal gene on the other X chromosome, is
generally unaffected.

Tobias ES, Connor M, Ferguson-Smith M. Essential medical genetics. John Wiley & Sons; 2011 Nov 15.
Dowell DR. NextGen genealogy: The DNA connection. ABC-CLIO; 2014 Nov 25.
 DUCHENNE MUSCULAR DYSTROPHY (DMD) 22

Caused by mutations in the dystrophin gene located on the short arm of the X
chromosome (Xp21), resulting in progressive muscle wasting.
Severe type of muscular dystrophy that primarily affects boys.
Muscle weakness usually begins around the age of four and worsens quickly.
Muscle loss typically occurs first in the thighs and pelvis followed by the arms, result in trouble
standing up.

Dystrophin is expressed in a wide variety of tissues,
Brain
Peripheral nerves
Skeletal
Cardiac myocytes

https://naqiffabeauty123.wixsite.com/mysite/single-post/2016/03/15/duchenne-muscular-dystrophy-dmd
 DUCHENNE MUSCULAR DYSTROPHY (DMD) 23

Clinical Features
Boys with DMD are normal at birth, and early motor
milestones are met on time.
Walking, is often delayed, and the first indications of muscle
weakness are clumsiness and inability to keep up with peers.
Enlargement of the calf muscles associated with weakness, a
phenomenon termed pseudohypertrophy, is an important
clinical finding.
Lordosis
Gowers sign: the child uses hands to rise from the floor, bend
its trunk, leans with hands on knees, climbing himself, due to
lumbar and proximal extremity muscles weakness.
Respiratory and cardiac muscles are often affected,
respiratory failure or cardiac decompensation are common
causes of death.
https://www.viquepedia.com/archive/Duchenne-muscular-dystrophy
 COLOR BLINDNESS 24

Inability to see the difference between certain colors.

Usually people have three types of cone cell in the eye
Red
Green
Blue

Color blindness – one type of cone cell is defect with
the gene that produce photopigment.

Genes that can give you red-green color blindness are
passed down on the X chromosome – more common
in men. https://www.bekirsitkiaslan.net/en/colour-blindness-a
CHROMOSOMAL DISORDERS
Down syndrome (Trisomy 21)
Edward Syndrome (Trisomy 18)
Patau syndrome (Trisomy 13)
Klinefelter Syndrome (XXY)
Turner Syndrome (TS) (Monosomy with X0)
Supermale (XYY)
Superfemale (XXX)
Cri du chat syndrome (Del5p)
 CHROMOSOME
26

Chromosome is a long DNA molecule with part or all of the genetic
material of an organism.

https://www.coolaboo.com/biology/chromosomes/
CHROMOSOME STRUCTURE
27

https://thebiologynotes.com/chromosomes/
https://opengenetics.pressbooks.tru.ca/chapter/cytogenetic-map/
 KARYOTYPE 28

Karyotype is an individual's complete set of chromosomes.
Laboratory-produced image of a person's chromosomes isolated from an individual cell and
arranged in numerical order.
Karyotype may be used to look for abnormalities in chromosome number or structure.
Normal results – 22 pairs of autosomes and two sex chromosomes
Euploidy à 46 chromosomes (2n)
Females: 44 autosomes and 2 sex chromosomes (XX), written as 46, XX
Males: 44 autosomes and 2 sex chromosomes (XY), written as 46, XY
Abnormal results
47, XY, +21 à Down syndrome (Trisomy 21)
47, XXY à Klinefelter syndrome
t(9;22) à Philadelphia (Ph) chromosome
47, XY, +18 à Edward Syndrome (Trisomy 18)
45, X, or 45, X0 à Turner syndrome (TS)
https://www.ucsfbenioffchildrens.org/medical-tests/karyotyping
 CYTOGENETIC DISORDERS
Genome abnormalities – loss or gain of whole chromosomes: monosomy (n) and trisomy (3n)
Chromosome abnormalities
1. Number (sex chromosomes or autosomes): gain or loss of whole chromosomes in the
human cell
Aneuploidy
Polyploidy
Mixoploidy
2. Structure
Deletion
Duplication
Inversion
Translocation, etc.
 NUMERICAL CHROMOSOMAL ABERRATIONS 30

1. Aneuploidy – having missing or extra chromosomes
Human cell having 45 or 47 chromosomes instead of the usual 46
Trisomy is the most common aneuploidy.
2. Polyploidy – more than two complete sets of chromosomes, common among plants, as well as among
certain groups of fish and amphibians.
E.g., some salamanders, frogs, and leeches
Two types of polyploidy
1. Triploidy (3n) – additional set of chromosomes in the cell for a total of 69 chromosomes, very
seldom survive to term
2. Tetraploidy (4n) – four copies of each chromosome
3. Mixoploidy – a mixture of cell populations whose component cells differ in their chromosome numbers à
46, XY/ 69,XXY
Mosaicism – having 2 or more genetically different sets of cells in body, all derived from a single zygote
Chimerism – having 2 or more genetically different cell lines originating from different zygotes
 MOSAICISM VS CHIMERISM 31

Mosaicism

Chimerism

Mosaicism is similar to chimerism in that it is defined by the presence of two genetically distinct cell lines; however, in
the case of chimerism there is fusion of two different zygotes within a single embryo.

https://www.alhakam.org/the-virgin-birth-scientific-plausibility/ https://www.quora.com/Whats-the-difference-between-a-mosaic-and-a-chimera
https://www.livescience.com/61890-what-is-chimerism-fused-twin.html https://www.biologyonline.com/dictionary/mosaicism
 STRUCTURAL CHROMOSOMAL MUTATION 32

Chromosomal mutation is a change related to the number or structure of a
chromosome.
Deletion – loss of part of chromosome
Duplication – extra copy made of part of chromosome
Inversion – reverses direction of part of chromosome
Translocation – part of one attaches to another chromosome

https://www.quora.com/What-are-the-four-types-of-chromosomal-mutations
 CHROMOSOME STRUCTURE: DELETIONS
33

Deletions (del) – a portion of the chromosome is missing or has been deleted.
Loss of chromosomal material
Large-scale deletions are lethal.

http://www.csun.edu/~cmalone/pdf360/Ch08-1%20struct.pdf
 34

CHROMOSOME STRUCTURE: DUPLICATIONS
Duplications (dup) – a portion of the chromosome has been duplicated, resulting in
extra genetic material.

http://www.csun.edu/~cmalone/pdf360/Ch08-1%20struct.pdf
 35

CHROMOSOME STRUCTURE: INVERSIONS
Inversions (inv) – a portion of the chromosome has broken off, turned upside down,
and reattached, therefore the genetic material is inverted.

http://www.csun.edu/~cmalone/pdf360/Ch08-1%20struct.pdf
 36
CHROMOSOME STRUCTURE: TRANSLOCATIONS
Exchange of chromosomal segments between nonhomologous chromosomes
Two major types
1. Reciprocal translocation (arm)
2. Robertsonian translocation (centromere)

1. 2.

Chronic Myeloid Leukemia (CML),
translocation, t(9;22)(q34;q11), of
genetic material between
chromosome 9 and 22, and contains a
fusion gene called BCR-ABL.

https://ph.parkwaycancercentre.com/learn-about-cancer/types-of-cancer/chronic-myeloid-leukaemia-cml/
http://www.csun.edu/~cmalone/pdf360/Ch08-1%20struct.pdf
 37

NUMERICAL CHROMOSOME ABERRATIONS

Autosomal aneuploidy
Down syndrome (Trisomy 21), 1:1000
Edward Syndrome (Trisomy 18), 1:3000
Patau syndrome (Trisomy 13), 1:16000
Sex chromosome aneuploidies (SCA)
Klinefelter Syndrome (XXY), 1 - 2.5:1000
Turner Syndrome (TS) (Monosomy with X0), 1:2000 - 2500
Supermale (XYY), 1:1000
Superfemale (XXX), 1:1000

STRUCTURAL CHROMOSOME ABERRATIONS
Cri-du-chat syndrome (del5p), 1:15,000 to 1:50,000
 Autosomal Aneuploidy
38

DOWN SYNDROME (TRISOMY 21)

http://www.learningaboutelectronics.com/Articles/Karyotype-profile-of-chromosomes.php
https://nursingcrib.com/nursing-notes-reviewer/down-syndrome/
 Autosomal Aneuploidy
39

EDWARD SYNDROME (TRISOMY 18)

http://www.learningaboutelectronics.com/Articles/Karyotype-profile-of-
chromosomes.php
 Autosomal Aneuploidy
40

PATAU SYNDROME (TRISOMY 13)

http://www.learningaboutelectronics.com/Articles/Karyotype-profile-of-chromosomes.php
 Sex Chromosome Aneuploidies (SCA)
41

KLINEFELTER SYNDROME (XXY)

http://www.learningaboutelectronics.com/Articles/Karyotype-profile-of-chromosomes.php
 Sex Chromosome Aneuploidies (SCA)
42
TURNER SYNDROME (TS) (MONOSOMY WITH X0)

http://www.learningaboutelectronics.com/Articles/Karyotype-profile-of-chromosomes.php
 Sex Chromosome Aneuploidies (SCA)
43

SUPERMALE (XYY)
Extra Y chromosome
Called the super-male disease, also known
as Jacobs syndrome

Sign
Acne
Tall stature (excessively tall)
Superior muscle strength
Reduced muscle coordination
Overly-aggressive
Lacking in empathy
IQ around 80 – most people (about 68%) have an IQ between 85 and 115.
http://www.learningaboutelectronics.com/Articles/Karyotype-profile-of-
chromosomes.php
 Sex Chromosome Aneuploidies (SCA)
44

SUPERFEMALE (XXX)
Usually there are no other physical differences
and normal fertility
Cannot be distinguished from XX females
Often taller than average
Normal IQ
Increasing numbers cause mental deficiency

http://www.learningaboutelectronics.com/Articles/Karyotype-profile-of-chromosomes.php
 Structural Abnormalities
45

CRI DU CHAT SYNDROME (DEL5P)
Caused by a partial deletion (monosomy) of a varying length of the short arm (p) of
chromosome 5

Characterized at birth
High pitched cry à infant cry resembles a meowing cat
Small head
Flattened bridge of the nose
Low birth weight
Poor muscle tone
Microcephaly
Potential medical complications

https://healthjade.com/cri-du-chat-syndrome/
 GENETIC TESTING 46

FISH NIP
KARYOTYPE (FLUORESCENCE IN SITU (NONINVASIVE PRENATAL TESTING)
HYBRIDIZATION)
Look for abnormalities in Fluorescent DNA probes to target
chromosome number or structure specific chromosomal locations within Determining the risk that the fetus will be
Large deletions and duplications the nucleus, resulting in colored signals born with certain genetic abnormalities.
Balanced rearrangements that can be detected using a fluorescent Analyzes small fragments of DNA that are
(translocations, inversions, and microscope. circulating in a pregnant woman's blood.
insertions) Gestational age after 9-10 weeks will be
Deletions
Duplications performed.
Translocations
Al Shakaki A. Bioethical Deliberation on Genomic Testing: Islamic Perspectives (Doctoral dissertation, Hamad Bin Khalifa University (Qatar)).
Asif M, et al. A novel four-way complex variant translocation involving chromosome 46, XY, t (4; 9; 19; 22)(q25: q34; p13. 3; q11. 2) in a chronic myeloid leukemia patient. Frontiers in Oncology. 2016 May 30;6:124.
https://www.quantumdxs.com/patients/nipt
 47

INDICATIONS FOR GENETIC TESTING

Prenatal genetic analysis Postnatal genetic analysis
Mother >35 years is an Multiple congenital anomalies
increased risk of trisomy. Unexplained mental retardation
and/or developmental delay
Parent who is a carrier of a Suspected aneuploidy
balanced reciprocal E.g., Down syndrome
translocation, Robertsonian Suspected unbalanced autosome
translocation or inversion. Suspected sex chromosomal
abnormality
Parent with a previous child E.g., Turner syndrome
with a chromosomal Infertility (to rule out sex
abnormality. chromosomal abnormality)
Multiple spontaneous abortion
Parent who is a carrier of an (to rule out the parents as
X-linked genetic disorder. carriers of balanced translocation
COMPLEX DISORDERS
 COMPLEX DISORDERS 49

Complex diseases are also called multifactorial diseases.

Caused by a combination of genetic, environmental, and
lifestyle factors, most of which have not yet been identified.

Main factor is genes but the cause includes other factors that
aren’t genes, such as
Nutrition, lifestyle, alcohol and tobacco, some medicines, an
illness, and pollution

The vast majority of diseases fall into this category, including
several congenital defects and a number of adult-onset
diseases.

Symptoms expressed are proportional to the number of genes
that have mutated. https://www.nationwidechildrens.org/conditions/health-library/medical-
genetics-multifactorial-inheritance
 MULTIFACTORIAL DISEASES 50

Common examples
Heart disease
Diabetes mellitus
Hypertension
Cancer e.g., breast and colon
Some cases of cleft lip and palate
Neural tube defects

https://clinicalgate.com/polygenic-and-multifactorial-inheritance/
 ASSIGNMENT FOR ACTIVE LEARNING (10 POINTS) 51

Students were divided into 3 groups, 12-13 each.

Student Number Group Topic
1 - 12 1 Mutation and complex disorders
13 - 25 2 Single-gene disorders
25 - 37 3 Chromosomal disorders

Each group sets multiple choice questions (5 choices) with answer from the assigned
topic, 5 items.
Please! submit the assignment on eLearning with file name as “Topic Name”.
 REFERENCES

1. Robbins SL, Kumar V, Cotran RS.
Hemodynamic, thrombosis and
shock in Robbins pathologic basic
of disease, 8th ed. Philadelphia:
W.B. Saunder, 2010.
2. Schneider AS, Szanto PA. Pathology,
4th ed. Philadelphia: Lippincott
Williams & Wilkins, a Wolters
Kluwer besiness, 2009