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cotransporter

Cotransporters are membrane proteins that move two or more solutes across a cell membrane in a coupled process. They are a type of secondary active transporter, meaning they rely on the electrochemical gradient of one substrate, usually an ion such as Na+ or H+, to drive the transport of another substrate against its gradient. The energy stored in the gradient is the source that enables uphill transport of the second solute.

Cotransporters are classified as symporters or antiporters. In symporters, the transported substrates move in the same

Common examples include the sodium-glucose cotransporters SGLT1 and SGLT2, which use Na+ influx to bring glucose

Cotransporters play essential roles in nutrient uptake, electrolyte balance, pH regulation, and overall cellular homeostasis.

direction
across
the
membrane.
In
antiporters,
the
substrates
move
in
opposite
directions.
Both
types
couple
the
movement
of
the
downhill
ion
to
the
uphill
transport
of
the
second
solute,
and
neither
requires
direct
ATP
hydrolysis
to
function.
Primary
active
transporters
(for
example,
Na+/K+-ATPase)
maintain
the
ion
gradients
that
power
cotransporters.
into
intestinal
epithelial
cells
and
renal
proximal
tubule
cells,
respectively.
These
transporters
are
targets
for
diabetes
treatments
with
SGLT2
inhibitors.
Another
major
family
is
the
Na+/K+/2Cl−
cotransporters
(NKCC1
and
NKCC2);
NKCC2
in
the
thick
ascending
limb
of
the
loop
of
Henle
is
inhibited
by
loop
diuretics
to
promote
diuresis.
The
Na+/Ca2+
exchanger
(NCX)
is
an
antiporter
that
exchanges
Na+
for
Ca2+
across
the
membrane
in
excitable
tissues.
Bacterial
lactose
permease
LacY
is
a
H+-coupled
symporter
that
uses
the
proton
motive
force
to
import
lactose.