Home

monoklonale

Monoklonale, or monoclonal antibodies, are laboratory-produced molecules engineered to act as substitute antibodies that can restore, enhance, or mimic the immune system's attack on targeted cells. They are derived from a single B-cell clone and bind to a specific antigen epitope, enabling highly selective targeting. The concept was developed in the 1970s by Georges Köhler and César Milstein, earning a Nobel Prize, and has since transformed diagnostics and therapy.

Production and types: Monoclonal antibodies are produced by hybridoma technology or recombinant DNA methods. Hybridomas fuse

Mechanisms and uses: Monoclonal antibodies can neutralize pathogens or toxins, block receptor signaling, recruit immune effector

Considerations: Therapeutic monoclonals are typically administered by infusion or injection and have long half-lives; however, risks

an
antibody-producing
B
cell
with
a
myeloma
cell
to
create
an
immortal
cell
line
that
secretes
a
single
antibody.
Modern
methods
use
recombinant
expression
in
mammalian
cells.
Antibodies
can
be
categorized
as
murine,
chimeric,
humanized,
or
fully
human,
reflecting
their
origin
and
degree
of
human
protein
sequence
content.
functions
such
as
antibody-dependent
cellular
cytotoxicity
(ADCC)
and
complement-dependent
cytotoxicity
(CDC),
or
deliver
cytotoxic
agents
to
target
cells.
Clinically,
they
are
used
to
treat
cancers
(for
example
trastuzumab
for
HER2-positive
breast
cancer;
rituximab
for
B-cell
lymphomas),
autoimmune
diseases
(adalimumab,
infliximab),
and
infectious
diseases.
They
are
also
essential
tools
in
diagnostics
and
basic
research.
include
infusion
reactions,
immunogenicity,
and
infections.
High
cost
and
the
need
for
specialized
manufacturing
and
monitoring
are
common
challenges.
Ongoing
development
includes
bispecific
antibodies
and
antibody-drug
conjugates
to
expand
mechanisms
of
action.