Intro to B Cells & Development PDF

Summary

This document provides an introduction to B cells and their development. It explains the differences between innate and adaptive immunity, the roles of B cells and plasma cells, and where B cells develop in the body. It's focused on an understanding of B cell development.

Full Transcript

WELCOME!
BMS 545
IMMUNOLOGY
OCTOBER 16, 2024
ANNOUNCEMENTS

 No more true “homework” until Module 4
 I will post an exam debrief video once all
students have taken the exam so I can talk
more freely
 I will post CBL answers once I am done grading!
 Office hours back to normal!
 Tuesday 4-5 pm virtual
 Thursday 4-5 pm in-person (316J)
DID EVERYONE
HAVE A GOOD
FALL BREAK?

ANYTHING
EXCITING?
ADAPTIVE IMMUNITY &
B-CELL REVIEW
 OBJECTIVES
 Describe how adaptive immune system differs from innate & unique features of the
adaptive immune system
 Describe the function & role of each adaptive immune cell* & be able to identify them
based on generalized picture, description of function or histology
 Describe how B cell graduates can be differentiated & where they can be found during
gestation
 Recognize & describe the microenvironments where adaptive immune cells* mature & the
adaptive immune response develops
 Identify the primary & secondary immune organs in vertebrates & describe their function
in relation to the adaptive immune system & adaptive immune cells*
 Describe the environment where B cells develop
 Describe how bone marrow stromal cells play a role in driving B cell development

*With a focus on B cells & plasma cells!
INNATE VS.
ADAPTIVE
IMMUNITY
 PURPOSE OF ADAPTIVE IMMUNE SYSTEM
 Steps in when innate immune system fails
 Comprises immunological memory- ability to recognize & remember specific pathogens
via their antigens
 Produces antibodies
 Humoral immune response- “fluids” that prevent or defend against microbial attack
 Antibodies recognize and bind to microbial epitopes:
 to prevent microbial spread by immobilization (agglutination)
 prevention of microbial attachment to host cells (neutralization)
 promotion of microbial phagocytosis and clearance (opsonization)
 targeting of microbial destruction by soluble molecules (complement) or by
leukocytes
 Cell-mediated immunity- leukocytes destroy invading cells
The Lymphocytes
LYMPHOCYTES
“Relating to lymphatic
system”

Lymphocytes produced
in bone marrow travel
through lymphatic
system and further
differentiate/ proliferate
within lymphoid tissue
(lymph nodes, thymus,
spleen)
 INTRO TO B-CELL
 DEVELOPMENT
Hematopoietic stem
cells in bone marrow become
common lymphoid precursor
(CLP) lineage
 Differentiates in thymus (T-
cells)
 Remains in bone marrow
(B-cells)

 B-cell “graduates” in each of
these groups can be
differentiated by:
 extent of their
“education”
 arrival & departure from
B.M.
 diversity or “repertoire” of
BCRs
 geographic distribution in
body
 nature of responses to
LYMPHOCYTES
 Lymphocytes are defined by where they undergo “basic training” & by
the type of receptors they display on their cell surfaces: TCR (T cells &
NKT cells), BCR or immunoglobulins (B cells), or neither (NK cells)
 Bone marrow-derived cells:
 Not all lymphocytes of bone marrow origin are destined for thymic
education
 Certain lymphoid cells remain & develop in the bone marrow & are
precursors of immunoglobulin-producing lymphocytes
 B cells- synthesize immunoglobulin and display it on their
surfaces, where it functions as their BCR
 Plasma cells- derived from differentiated, mature B cells and
both synthesize and secrete immunoglobulin
 B-CELL
 Do not migrate to the thymus but develop within the bone marrow
 Arise from HSCs in the bone marrow
 Two distinct lineages: B-1 & B-2 cells
 B-1 cells (first to develop embryologically)- self-renewing
population that dominates the plural & peritoneal cavities
 B-2 cells (conventional) arise during & after the neonatal
period, are continuously replaced from the bone marrow, &
are widely distributed throughout the lymphoid organs &
tissues
 Each B cell is specific- it produces immunoglobulin of only one
antibody specificity that recognizes only one epitope.
 It is the extreme diversity among B cells, each producing a single
form of immunoglobulin, that generates the overall diversity of
the immunoglobulin (or antibody) response
Chapter Opener
B-CELLS!!
B-CELL LINEAGE OVERVIEW
 In humans, progenitors of immunoglobulin-producing
cells are found during gestation:
 3rd week- yolk sac
 8th week- fetal liver
 ~12th week- bone marrow

 Called “bone marrow–derived lymphocytes” or B
cells because this is where most of these cells
differentiate
 B cells are cells that synthesize immunoglobulin &
display it on their surfaces as their BCRs
 Once they become activated, they differentiate into
plasma cells which can then synthesize AND secrete
their BCR as an antibody
 PLASMA CELL
 Derive from terminally differentiated B cells & are
immunoglobulin-producing AND immunoglobulin-
secreting cells
 Characterized by basophilic cytoplasm, a nucleus
that has a stellate (starlike) pattern within it, and
non-staining Golgi
 Cease to use immunoglobulin as a membrane
receptor & instead secrete it into the fluids around
them
 Secreted immunoglobulin known as “antibodies”

 With increased size & metabolic activity, are
factories that produce large quantities of
immunoglobulin during their short life span of