Rare Disease and Cellular Abnormalities I (HKMU 2024) PDF

Summary

This document covers rare diseases and cellular abnormalities, including cystic fibrosis, progeria, and mucopolysaccharidoses. It includes information on the causes, symptoms, and treatments for specific disorders. The presentation was done at HKMU in 2024.

Full Transcript

BIOL 2006SEF
Cells in Health and Disease

Topic 4 Rare Disease and Cellular
Abnormalities I

Dr CHEUNG Ka Tik

HKMU 2024
 WHAT IS RARE
Never seen before,
Unbelievable,
Unrecognized or
Unusual or

When one comes to
know that he or she
is suffering from something
which is different kind of
disorder and is rarely seen;
say one in 200,000.
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 I AM RARE- THE QUESTIONS
OCCUPIES ONE’S MIND

Am I unlucky to be cursed with this disorder?
Am I correctly diagnosed?
Is this curable?
If so, how expensive is the treatment?
What will be the success rate of my treatment?

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 RARE AND ORPHAN
Poorly Diagnosed
Heavy cost of treatment
Neglected
Untreated
Abandoned/Orphan
People with rare disorders and
their families often suffer
isolation, frustration,
depression, and abandonment.
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Hong Kong Chief Executive Carrie Lam meets 23-year-old
Josy Chow Pui-shan, who suffers from spinal muscular
atrophy, outside government headquarters on October 8.
Photo: Kwong Wing-kin

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 Rare Diseases
Group of conditions which affect tiny numbers
of people
95% of rare diseases are genetic, and the rest
may occur as a result of viral or bacterial
infections, allergies, and other environmental
causes.
About 95% of rare diseases do not have a
treatment option  greatest challenge for
patient care

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 FACTS TO KNOW ABOUT RARE
DISORDERS (RDs)
There are approximately 8,000 different types of RDs,
with more being discovered each day.

There is currently no uniform definition of RD that has
been adopted unanimously around the world.

National Health Commission released in June 2018
"The First Catalogue of Rare Diseases in China"
comprising 121 rare diseases; and in September 2023
"The Second Catalogue of Rare Diseases in China"
including another 86 rare diseases with the relevant list
of drugs and producers.
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 FACTS TO KNOW ABOUT RARE
DISORDERS (RDs)
About 95 % of the RDs are genetic in origin, and thus are present
throughout a person’s life, even if symptoms do not appear
immediately.

The age of onset varies from birth to old age, depending on the
individual and disease type. About 50% of RDs onset at birth.

The vast majority of RD pose a serious and long-term threat to
patients’ health, and some can even be disabling and fatal.

Most of RDs have no FDA Approved Drug Treatment

Lack of awareness, dispersed target population and inefficient
reporting limits the pace of drug development for RDs.
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 FACTS TO KNOW ABOUT RARE
DISORDERS (RDs)
At present, ‘rare diseases” are referred to as “uncommon
diseases” by the Hong Kong Government, and there is no
official definition of “uncommon diseases”.

Well-known ones include Mucopolysaccharidoses, Pompe
Disease, Angelman Syndrome, Albinism, Marfan Syndrome,
Rett Syndrome, Spinocerebellar Ataxia, Tuberous Sclerosis
Complex, Spinal Muscular Atrophy, Fabry Disease, Retinitis
Pigmentosa.

The total number of rare disease patients in Hong Kong is
as high as 110, 000.

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 Rare Diseases - Cell disorders

CELL MEMBRANE - CYSTIC FIBROSIS
NUCLEUS - PROGERIA
LYZOSOME - MUCOPOLY SACCHARIDOSIS
CYTOSKELETON - DUCHENNE MUSCULAR DYSTROPHY
MITOCHONDRIA - LEIGH’S DISEASE
ENDOPLASMIC RETICULUM - PRION DISEASES

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 Cystic fibrosis

Cystic fibrosis is an autosomal recessive disorder
that affects epithelial cells of the respiratory ,
gastrointestinal and reproductive tracts and leads
to abnormal exocrine gland secretions.

An individual must inherit a defective copy of the
CF gene (one from each parent) to have CF.

Although it can affect many organ system, CF is
particularly damaging to the lungs, leading to
COPD in childhood and early adulthood.
Autosomal recessive
 Epidemiology

The frequency of CF is 1 in 2,000 to 3,000 live
births, and there are approximately 30,000
children and adults with this disease in the
United States (Cystic Fibrosis Foundation, 2002).

Although CF was once considered a fatal
childhood disease, approximately 38% of people
living with the disease are 18 years of age or
older (Cystic Fibrosis Foundation,2002).
 Etiology /Pathophysiology
CF is due to a mutation in the CF gene on
chromosome 7.

The CF gene encodes a protein known as the cystic
fibrosis transmembrane regulator (CFTR).

The abnormal CFTR protein in patients with CF
leads to disruption of chloride channels on the cells.
 Etiology /Pathophysiology

Mutations in the CFTR gene cause cystic fibrosis.

Disrupt the function of the chloride channels,
preventing them from regulating the flow of chloride
ions and water across cell membranes.

Produce mucus that is unusually thick and sticky.

Damages the lungs and digestive system.
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 Etiology /Pathophysiology
Defective chloride transport cause more water
and sodium reabsorption than normal.

Secretion in affected organs becomes thick
and viscous obstructing the glands and
ducts.

Dilatation of the secretory glands damage to
the exocrine tissue
 GABA receptors are ligand-gated ion
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channels
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 Non-pulmonary clinical manifestations

Gastrointestinal problems (eg, pancreatic
insufficiency)
Biliary cirrhosis,
Vitamin D deficiencies,
Recurrent pancreatitis,
Weight loss
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 Assessment and Diagnostic Findings

Sweat chloride concentration test:

Sweat test: sweat chloride values of greater
than 60 mEq/L

Genetic tests to find out what type of CFTR
defect is causing CF.

Chest x ray: Inflated lung, lungs fibrosis and
scaring
Guess..?

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 What Is Progeria?
Progeria is an extremely rare, fatal genetic condition that
affects children and gives them an appearance of
accelerated aging.

The word Progeria comes from the Greek rogeros meaning
'prematurely old'.

It was first described in an academic journal by Dr. Jonathan
Hutchinson in 1886, and Dr. Hastings Gilford in 1897 - both
in England.

The condition was later named Hutchinson-Gilford Progeria
Syndrome (HGPS).
 Prevalence
Progeria is listed as a "rare disease" by the Office of Rare
Diseases (ORD) of the National Institutes of Health (NIH).

HGPS prevalence is reported to be 1 in 8 million births.

The true prevalence, however, has been suggested to be
closer to 1 in 4 million births because many cases likely go
undiagnosed or are misdiagnosed.
 Prevalence
Progeria affects all races with about 97% of the children
affected being Caucasian.

Also, it affects both sexes almost equally with slight male
predilection; the male-to-female ratio is 1.5:1.

In the past 15 years, children with Progeria have been
reported all over the world.
 Fertility
In general, people with progeria have such severe failure to thrive
(poor growth from the time of childhood) that it prevents fertility.

The absence of complete sexual maturation has been considered
characteristic of the syndrome.

Yet a case described and published at 1989 by endocrinologists in
Spain reported that a 32-year-old woman with progeria had
delivered a child at age 23 which means that she must have been
sexually mature to deliver the child.

However sexual maturity is rare in these patients.
 Prognosis
As there is no known cure, the average life expectancy for a
patient with HGPS is 13 years, with an age range of 7-27 years.

At least 90% of patients die from complications of
atherosclerosis, such as heart attack or stroke.

Mental development is not adversely affected; in fact,
intelligence tends to be above average.
 Symptoms
Although they are born looking healthy, children with Progeria
begin to display many characteristics of accelerated aging at
around 18-24 months of age.

The children have a remarkably similar appearance, despite
differing ethnic backgrounds.

Most of the following features are manifested after the age of
three years in children with Hutchinson-Gilford progeria
syndrome.
 Symptoms
Baldness
Pinched nose
Small, wrinkled face
Head large for the size of the face
Loss of eyebrows and eyelashes
Prominent scalp veins
Delayed tooth formation
Loss of muscles and body fat
Bulging eyes
Wrinkled, scaly, dry skin
High pitched voice
Short stature
Stiffness in joints
Progressive cardiovascular diseases
Progressive atherosclerosis
Fig: Dutch Patient at the age of 1 year, 1 year, 2 years, 6 years, 7 years, 8 years, 10
years, and 12 years.
 Genetic causes
Mutations in the LMNA gene cause Hutchinson-Gilford
progeria syndrome.

LMNA gene is located on chromosome 1q22 and is composed
of 12 exons.

Only four causative heterozygous mutations for HGPS in
LMNA are recognized.
 Mode of inheritance
HGPS is not usually passed down in families.

The gene change is almost always a chance occurrence that is
extremely rare.

However, HGPS is considered a “sporadic autosomal
dominant” mutation.
Fig : Progeria mode of inheritance
 Molecular Basis of Disease
A key to disease in HGPS is the presumably persistent
farnesylation of progerin, which renders it permanently
intercalated into the inner nuclear membrane where it can
accumulate and exert progressively more damage to cells as
they age.

The inability to release progerin from the nuclear membrane
results in structural stress on the nucleus.

This permanently farnesylated mutant form of prelamin A
(progerin) leads to the progressive defects in nuclear
architecture that are seen in HGPS.
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Fig : Normal cell Vs. progeria cell
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 Diagnosis
The diagnosis is based on recognition of common clinical
features and Molecular genetic testing of LMNA, the only
gene known to be associated with HGPS.
 Molecular genetic testing
Molecular genetic testing:

Targeted mutation analysis can be used to identify the
pathologic variant c.1824C>T (p.Gly608Gly), the common
recurrent de novo LMNA mutation in exon 11 that defines
classic HGPS.
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 Treatments
Regular monitoring for cardiovascular disease may help
with managing the child's condition.

Some children undergo coronary artery bypass surgery or
dilation of cardiac arteries (angioplasty) to slow the
progression of cardiovascular disease.

Low-dose aspirin. A daily dose may help prevent heart
attacks and stroke.

Other medications. Depending on the child's condition,
doctor may prescribe other medications, anticoagulants to
help prevent blood clots. The use of growth hormone may
help increase height and weight.
 MUCO
POLY
SACCHARIDOSES

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 Mucopolysaccharidoses
Hereditary, progressive diseases caused by
mutations of genes coding for lysosomal
enzymes needed to degrade
glycosaminoglycans (GAGs) (acid
mucopolysaccharides).
GAGs accumulate in the lysosomes, resulting
in cellular dysfunction and clinical
abnormailites

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 Mucopolysaccharidoses
Mucopolysaccharidoses are autosomal recessive
disorders, with the exception of Hunter disease,
which is X- linked recessive.

Mucopolysaccharidoses
10/24/2024 49
Prof.Dr.Saad S Al Ani Khorfakkan Hospital
Classification

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 Glycosaminoglycan(GAG)

A long-chain complex
carbohydrate composed
of:
1. Uronic acids
2. Amino sugars
3. Neutral sugars.
www.mun.ca

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Prof.Dr.Saad S Al Ani Khorfakkan Hospital
 GAGs are highly polar molecules and attract
water; the body uses them as lubricants or
shock absorbers.
GAGs interact with a wide range of proteins,
including proteases, growth factors, cytokines,
chemokines and adhesion molecules, enabling
them to mediate many physiological
processes, such as protein function, cellular
adhesion and signaling.

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 Proteoglycans degradation
Proteoglycans
Proteolytic
Protein core

Stepwise
degradation GAG moiety

www.glycoforum.gr.jp

Mucopolysaccharidoses
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Prof.Dr.Saad S Al Ani Khorfakkan Hospital
 Proteoglycans degradation disturbance
Proteoglycans
Absent or grossly reduced activity
of mutated lysosomal enzymes

Glycosaminoglycans (GAGs)
Intralysosomal

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10/24/2024 55
Prof.Dr.Saad S Al Ani Khorfakkan Hospital
 Proteoglycans degradation disturbance
(cont.)

Distended
lysosomes

cell
function

printablecolouringpages.co.uk

Characteristic pattern of clinical, radiologic, and
biochemical abnormalities

Specific diseases can be recognized that evolve from the
intracellular accumulation of different degradation products

Mucopolysaccharidoses
10/24/2024 Prof.Dr.Saad S Al Ani Khorfakkan Hospital 56
Pathophysiology

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Symptoms

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 Symptoms
Feature MPS I (Hurler MPS II (Hunter MPS III MPS IV MPS VI MPS VII (Sly
Syndrome) Syndrome) (Sanfilippo (Morquio (Maroteaux- Syndrome)
Syndrome) Syndrome) Lamy Syndrome)
Inheritanc Autosomal X-linked Autosomal Autosomal Autosomal Autosomal
e Pattern recessive recessive recessive recessive recessive recessive
Deficient α-L- Iduronate-2- Heparan N- Galactosamine N- β-
Enzyme iduronidase sulfatase sulfatase -6-sulfatase acetylgalactosam glucuronidase
ine-4-sulfatase
Key Coarse facial Coarse facial Severe Skeletal Coarse facial Dysmorphic
Clinical features, features, neurological abnormalities, features, features,
Features symptoms,
hepatospl behavioral hepatomegaly, joint short stature, organomegaly,
enomegaly issues, joint stiffness abnormalities, skeletal dysmorphic
, corneal intellectual short abnormalities,
,
clouding, limited disability stature organomegaly features
cognitive mobility
decline
Skeletal Yes No Yes Yes Yes Yes
Involveme
nt
Neurologic Cognitive Mild cognitive Severe Absent Mild Severe
al Features decline impairment neurological neurological neurological
symptoms
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Diagnosis

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 Treatment of MPS
Enzyme replacement

Hematopoietic stem cell transplantation

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 Enzyme replacement
It reduces :
Organomegaly
Number of episodes of sleep apnea
Urinary GAG excretion
It ameliorates :
rate of growth
joint mobility
Physical endurance.
The enzymes do not :
Cross the blood-brain barrier
Prevent deterioration of neurocognitive involvement.
This therapy is the domain for patients with mild central nervous
involvement

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Blood-Brain Barrier

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 Hematopoietic stem cell
transplantation
Hematopoietic stem cell transplantation results in significant
clinical improvement of somatic disease in MPS I, II, and VI

Enzyme replacement using recombinant enzymes is approved for
patients with MPS I, MPS II, and MPS VI.

Enzyme activity in serum and urinary GAG excretion is normalized.

Transplantation prevents neurocognitive degeneration

Transplantation does not correct :
Existent cerebral damage
Skeletal and ocular anomalies

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 Prevention
Primary prevention
– Through genetic counseling
Tertiary prevention
– To avoid or treat complications remains the mainstay of
supportive pediatric care
Multidisciplinary attention to:
Respiratory and cardiovascular complications
Hearing loss
Carpal tunnel syndrome
Spinal cord compression
Hydrocephalus, and other problems
– Can greatly improve the quality of life for patients and
their families
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 WATCH…
The progressive nature of clinical involvement
in MPS patients dictates the need for
specialized and coordinated evaluation

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