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cotransporter2

Cotransporter2, most commonly known as sodium-glucose cotransporter 2 (SGLT2), is a membrane transporter in the renal proximal tubule that mediates the sodium-dependent reabsorption of glucose from the filtrate. It belongs to the solute carrier family SLC5 and is encoded by the SLC5A2 gene. SGLT2 plays a key role in reclaiming glucose from urine and helping regulate blood glucose levels.

Mechanism and location: SGLT2 is situated on the apical (luminal) membrane of proximal tubule cells, mainly

Physiological role and regulation: By reabsorbing most filtered glucose, SGLT2 helps prevent glucose loss in urine

Clinical significance: Inhibitors of SGLT2 (SGLT2 inhibitors or gliflozins) reduce renal glucose reabsorption, promoting glucosuria and

History: The concept originated from phlorizin studies, with the development of selective SGLT2 inhibitors emerging in

in
the
S1
and
S2
segments.
It
uses
the
inward
sodium
gradient
established
by
the
Na+/K+-ATPase
on
the
basolateral
side
to
cotransport
one
sodium
ion
with
one
glucose
molecule
from
the
tubular
lumen
into
the
cell.
Glucose
then
exits
basolaterally
through
facilitated
transporters
such
as
GLUT2.
SGLT2
has
high
capacity
but
relatively
low
affinity
for
glucose
and
accounts
for
about
90%
of
filtered
glucose
reabsorption,
with
SGLT1
in
the
later
segment
reclaiming
the
remainder.
and
contributes
to
overall
energy
balance.
Its
activity
can
be
influenced
by
metabolic
states
and
disease
processes
that
alter
proximal
tubule
function.
lowering
blood
glucose
in
type
2
diabetes.
They
have
demonstrated
cardiovascular
and
renal
benefits
beyond
glycemic
control.
Common
adverse
effects
include
genital
infections,
urinary
tract
infections,
volume
depletion,
and,
less
frequently,
ketoacidosis.
Examples
include
canagliflozin,
dapagliflozin,
empagliflozin,
and
ertugliflozin.
the
2010s
to
treat
diabetes
and
related
conditions.