Current Opinion in Neurology,
Journal Year:
2022,
Volume and Issue:
35(5), P. 672 - 677
Published: Aug. 8, 2022
Purpose
of
review
ALS
genetics
are
highly
dynamic
and
great
interest
for
the
research
community.
Each
year,
by
using
ever-growing
datasets
cutting-edge
methodology,
an
array
novel
ALS-associated
genes
downstream
pathomechanisms
discovered.
The
increasing
plenty
complexity
insights
warrants
regular
summary
by-reviews.
Recent
findings
Most
recent
disease
gene
discoveries
constitute
candidate
risk
SPTLC1
,
KANK1
CAV1
HTT
WDR7
as
well
seven
loci.
Cell
type
functional
enrichment
analyses
enlighten
genetic
basis
selective
motor
neuron
vulnerability
in
demonstrating
high
expression
cortical
neurons
highlight
pathogenic
significance
cell-autonomous
processes.
Major
pathomechanistic
have
been
gained
regarding
known
genes/proteins,
specifically
C9orf72
TDP43,
ANXA11
KIF5A
.
first
ASO-based
gene-specific
therapy
trials
familial
forms
yielded
equivocal
results
stressing
re-evaluation
linked
to
SOD1
mutations.
Summary
molecular
is
increasingly
examined
on
single-cell
resolution.
In
past
2
years,
understanding
mechanisms
several
TDP-43
proteinopathy
has
considerably
extended.
These
will
result
specific
approaches
sporadic
subtypes.
Nature Genetics,
Journal Year:
2023,
Volume and Issue:
55(3), P. 377 - 388
Published: Feb. 23, 2023
Identification
of
therapeutic
targets
from
genome-wide
association
studies
(GWAS)
requires
insights
into
downstream
functional
consequences.
We
harmonized
8,613
RNA-sequencing
samples
14
brain
datasets
to
create
the
MetaBrain
resource
and
performed
cis-
trans-expression
quantitative
trait
locus
(eQTL)
meta-analyses
in
multiple
region-
ancestry-specific
(n
≤
2,759).
Many
16,169
cortex
cis-eQTLs
were
tissue-dependent
when
compared
with
blood
cis-eQTLs.
inferred
cell
types
for
3,549
by
interaction
analysis.
prioritized
186
31
brain-related
traits
using
Mendelian
randomization
co-localization
including
40
an
type,
such
as
a
neuron-specific
cis-eQTL
(CYP24A1)
sclerosis.
further
describe
737
trans-eQTLs
526
unique
variants
108
genes.
used
brain-specific
gene-co-regulation
networks
link
GWAS
loci
prioritize
additional
genes
five
central
nervous
system
diseases.
This
study
represents
valuable
post-GWAS
research
on
Nature Genetics,
Journal Year:
2022,
Volume and Issue:
54(9), P. 1355 - 1363
Published: Aug. 18, 2022
Abstract
Most
genetic
variants
identified
from
genome-wide
association
studies
(GWAS)
in
humans
are
noncoding,
indicating
their
role
gene
regulation.
Previous
have
shown
considerable
links
of
GWAS
signals
to
expression
quantitative
trait
loci
(eQTLs)
but
the
other
regulatory
mechanisms,
such
as
splicing
QTLs
(sQTLs),
underexplored.
Here,
we
introduce
an
sQTL
mapping
method,
t
esting
for
h
eterogeneity
between
is
oform-eQ
TL
e
ffects
(THISTLE),
with
improved
power
over
competing
methods.
Applying
THISTLE
together
a
complementary
strategy
brain
transcriptomic
(
n
=
2,865)
and
genotype
data,
12,794
genes
cis
-sQTLs
at
P
<
5
×
10
−8
,
approximately
61%
which
were
distinct
eQTLs.
Integrating
data
into
12
brain-related
complex
traits
(including
diseases),
244
associated
through
-sQTLs,
could
not
be
discovered
using
corresponding
eQTL
data.
Our
study
demonstrates
most
sQTLs
regulation
transcription
variation.
Neuron,
Journal Year:
2022,
Volume and Issue:
110(6), P. 992 - 1008.e11
Published: Jan. 18, 2022
Amyotrophic
lateral
sclerosis
(ALS)
is
a
complex
disease
that
leads
to
motor
neuron
death.
Despite
heritability
estimates
of
52%,
genome-wide
association
studies
(GWASs)
have
discovered
relatively
few
loci.
We
developed
machine
learning
approach
called
RefMap,
which
integrates
functional
genomics
with
GWAS
summary
statistics
for
gene
discovery.
With
transcriptomic
and
epigenetic
profiling
neurons
derived
from
induced
pluripotent
stem
cells
(iPSCs),
RefMap
identified
690
ALS-associated
genes
represent
5-fold
increase
in
recovered
heritability.
Extensive
conservation,
transcriptome,
network,
rare
variant
analyses
demonstrated
the
significance
candidate
healthy
diseased
brain
tissues.
Genetic
convergence
between
common
variation
highlighted
KANK1
as
new
ALS
gene.
Reproducing
patient
mutations
human
led
neurotoxicity
TDP-43
mislocalization,
hallmark
pathology
ALS,
downstream
axonal
dysfunction.
can
be
readily
applied
other
diseases.
Journal of Human Genetics,
Journal Year:
2022,
Volume and Issue:
68(3), P. 131 - 152
Published: June 13, 2022
Abstract
Amyotrophic
lateral
sclerosis
(ALS)
is
an
intractable
disease
that
causes
respiratory
failure
leading
to
mortality.
The
main
locus
of
ALS
motor
neurons.
success
antisense
oligonucleotide
(ASO)
therapy
in
spinal
muscular
atrophy
(SMA),
a
neuron
disease,
has
triggered
paradigm
shift
developing
therapies.
causative
genes
and
disease-modifying
genes,
including
those
sporadic
ALS,
have
been
identified
one
after
another.
Thus,
the
freedom
target
choice
for
gene
expanded
by
ASO
strategy,
new
avenues
therapeutic
development.
Tofersen
superoxide
dismutase
1
(SOD1)
was
pioneer
ALS.
Improving
protocols
devising
early
interventions
are
vital.
In
this
review,
we
updated
knowledge
We
summarized
genetic
mutations
familial
their
clinical
features,
focusing
on
SOD1
,
fused
sarcoma
(FUS)
transacting
response
DNA-binding
protein.
frequency
C9ORF72
mutation
low
Japan,
unlike
Europe
United
States,
while
FUS
more
common,
indicating
vary
ethnicity.
A
genome-wide
association
study
revealed
which
could
be
novel
therapy.
current
status
prospects
development
were
discussed,
ethical
issues.
Furthermore,
discussed
potential
axonal
pathology
as
targets
from
perspective
intervention,
intra-axonal
transcription
factors,
neuromuscular
junction
disconnection,
dysregulated
local
translation,
abnormal
protein
degradation,
mitochondrial
pathology,
impaired
transport,
aberrant
cytoskeleton,
axon
branching.
simultaneously
discuss
important
pathological
states
cell
bodies:
persistent
stress
granules,
disrupted
nucleocytoplasmic
cryptic
splicing.
based
elucidation
intervention
molecular
expected
become
strategy
Nature Genetics,
Journal Year:
2023,
Volume and Issue:
55(9), P. 1471 - 1482
Published: Aug. 31, 2023
Epilepsy
is
a
highly
heritable
disorder
affecting
over
50
million
people
worldwide,
of
which
about
one-third
are
resistant
to
current
treatments.
Here
we
report
multi-ancestry
genome-wide
association
study
including
29,944
cases,
stratified
into
three
broad
categories
and
seven
subtypes
epilepsy,
52,538
controls.
We
identify
26
significant
loci,
19
specific
genetic
generalized
epilepsy
(GGE).
implicate
29
likely
causal
genes
underlying
these
loci.
SNP-based
heritability
analyses
show
that
common
variants
explain
between
39.6%
90%
risk
for
GGE
its
subtypes.
Subtype
analysis
revealed
markedly
different
architectures
focal
epilepsies.
Gene-set
signals
synaptic
processes
in
both
excitatory
inhibitory
neurons
the
brain.
Prioritized
candidate
overlap
with
monogenic
targets
antiseizure
medications.
Finally,
leverage
our
results
alternate
drugs
predicted
efficacy
if
repurposed
treatment.
