Influenza A: Module 3 Homework

Antigenic shift:

- A New form of the influenza virus originates in an animal host. Due to humans close proximity to these animals, it is possible for viruses to undergo reassembly and produce a new form of the virus, which can infect humans - Abrupt, major changes in the influenza virus leads to the new H and N spikes on the influenza virus

Function of Both Markers

- A type of glycoproteins expressed on the surface of a cell - Proteins that have an attached carbohydrate chain of sugar - Plays a role in the immune system

Protective Proteins

- Act as molecular targets that identify pathogens for destruction by the immune system - Create holes in the bacterial membrane, destroying the bacterial cell - Example: Complement proteins

Antigenic drift:

- Because the influenza virus is an RNA virus, it must undergo reverse transcription in order for the host cell to use its genetic material to make the new viruses. Since this process is not heavily regulated, it has the potential to introduce new mutations within the genetic materials of the virus - Small changes in the genes of influenza viruses can lead to changes in the surface proteins. These small changes produce viruses that are closely related to one another.

Phagocyte Cells

- Directly involved in identifying pathogens - Some cells phagocytize pathogens - Examples: Macrophages and dendritic cells

Immune System

- Microscopic protection unit defending cells from foreign objects and pathogens - Patrols every organ and tissue in the body - Composed of macrophages, dendritic cells, and neutrophils - Composed of natural killer cells - Composed of B and T lymphocytes

MHC Class I Markers

- Present on every nucleated cell of the body - General "self" identification tag

MHC Class II Markers

- Present only on the immune system cells - A link between the nonspecific and specific immune response - Markers allow the immune system to identify cells with different functions - Alerts the immune system to specific pathogens

Physical Barriers

- Structures and chemicals produced by the body to slow or prevent pathogens from entering the body - Examples: Skin, respiratory tract, and stomach

Lymphatic System

- System that transports lymph throughout the body - Network of tissues and organs that filter bodily fluids - Organ system that connects the circulatory system and the immune system

Inflammatory Response

- The first immediate action taken by the immune system against an injury - Release of chemical signals triggers a series of events to fight off an infection

Place the following steps in the correct order to represent the stages in which antigens are formed by the immune system

1. A pathogen is detected by the immune system 2. The pathogen is ingested by the macrophage and fragments into pieces 3. A fragment of the pathogen, called an antigen, is attached to the surface of the macrophage 4. The expression of this antigen on the macrophage, which is now called an antigen-presenting cell, alerts the remainder of the immune system

The term ________ in reference to the immune system refers to the differentiation of self from non-self and the tailoring of the response to the particular foreign invader.

Adaptive

__________ has the ability to target cells of the body that are infected with pathogens, while also responding to any pathogens that are free in the blood or interstitial fluid of the body.

Adaptive immunity

When the adaptive immune system is first activated, memory __________ of the antibody-mediated immunity pathway are held in reserve and not used in the first response to the antigen

B cells

Adaptive defenses depend primarily on the activities of ________ and T cells. Both cell types are capable of binding to and recognizing specific targets because they have _________ ________ on their plasma membrane.

Blank 1: B cells Blank 2: antigen receptors

The ______________ is responsible for protecting our bodies from harmful substances and pathogens that enter the body. It has a remarkable way of adapting to the constantly evolving structure of ____________.

Blank 1: Immune system Blank 2: Pathogens

An example of an antiviral drug, called __________, inhibits a viral enzyme called _____________ to prevent the influenza virus from ____________ new viruses from the host cell.

Blank 1: Tamiflu Blank 2: neuraminidase Blank 3: releasing

_______ contain an antigen and are used to activate the _____________ immune system without bringing on serious health risks.

Blank 1: Vaccines Blank 2: adaptive

The __________ immune system targets __________ antigens associated with the influenza virus and has the ability to remember these antigens. If the body is exposed to the ______ influenza virus, the response can be much faster and more efficient.

Blank 1: adaptive Blank 2: specific Blank 3: same

The second form of adaptive immunity, ______________________, involved the ___________________ which are involved in the production of antibodies.

Blank 1: antibody-mediated immunity Blank 2: B lymphocytes

Even years later, if the ___________ enters the body, memory cells are quick to respond and are capable of producing the correct type of __________.

Blank 1: antigen Blank 2: antibody

By using these proteins as ____________ as the basis for vaccines to trigger an ___________ immune response, scientists are able to provide protection against a variety of influenza viruses since the core proteins are more similar between influenza viruses than the spikes

Blank 1: antigens Blank 2: adaptive

Targeting ____________: Antiviral medicines target either the molecules on the surface of the _________________ that the virus identifies with, or _____________ that the virus uses to attach to the cell

Blank 1: attachment Blank 2: host cell Blank 3: proteins

The first form of adaptive immunity, ____________________, uses two types of cells, ______________ and cytotoxic T cells to target and eventually kill the cells of the body that have become infected with the pathogen and are presenting the antigen.

Blank 1: cell-mediated immunity Blank 2: helper T cells

Another role of the immune system is for the _________ of the immune system to interact with all of the tissues and organs of the body and to distinguish bodies' cell from those of _________.

Blank 1: cells Blank 2: invaders

In addition to barriers, there are either a number of ______, phagocytes, and natural killers, or _______ _________ involved with identifying and potentially destroying pathogens that have passed through the physical barriers. The cells also have the ability to send signals, such as __________ to signal nearby cells that a cell has been infected by a virus.

Blank 1: cells Blank 2: protective proteins Blank 3: interferons

The proteins, called ____________, ____________ at the same rate as the H and N spikes on the virus

Blank 1: core proteins Blank 2: do not change

The first line of defenses, which acts as a __________ line of defense against pathogens, is collectively called the ________ immune system, __________ exposure is required to generate a response. Below ads several examples.

Blank 1: general Blank 2: innate Blank 3: No previous

The lymphatic system returns _______ from the tissues of the body back to the ________ __________. By monitoring the return of these fluids in the _________ _________ of the body, the _________ _________ detects the presence of pathogens.

Blank 1: lymph Blank 2: circulatory system Blank 3: lymph nodes Blank 4: immune system

The _______ __________ consists of several organs and tissues that are involved in filtering and cleaning the _______ and interstitial fluids of the body.

Blank 1: lymphatic system Blank 2: blood

Another key feature of the adaptive immune system is ____________, and this feature of the adaptive immune system is maintained by a subset of B and T ____________.

Blank 1: memory Blank 2: lymphocytes

The immune system cells may be ____________ and involved in the general immune response or are __________ and are capable of targeting a specific type of a pathogen.

Blank 1: nonspecific Blank 2: specific

A type of B lymphocytes, ________________ are associated with the lymphatic system. They can secrete ____________ into the lymphatic system and identify free pathogens that are circulating throughout the body.

Blank 1: plasma B cells Blank 2: antibodies

The first time the immune system comes into contact with the antigen it is called the ____________________. The adaptive immune system is _______ to produce antibodies, since it takes time to recognize antigen.

Blank 1: primary response Blank 2: slow

Instead of focusing on the genes that code for the _________ evolving H and N spikes, newer vaccines are targeting other proteins within the _________

Blank 1: rapidly Blank 2: capsid

Targeting ____________: Antiviral medicines target the enzyme that interacts with specific molecules in the host cell's membrane to allow the newly formed viruses to _______ the host cell.

Blank 1: release Blank 2: escape

A second exposure to the same antigen may occur. During the ____________________, the production of antibodies is _____________ and is expected to prevent disease symptoms.

Blank 1: secondary response Blank 2: immediate

Progress is being made in developing a _________ vaccine that would provide _________ protection for individuals

Blank 1: single Blank 2: long-term

This is useful because if exposed to the same pathogen again, the pathogen is Meg immediately with a stronger, faster, more efficient, and _____________ that usually effectively stops the infection with less reliance on the _______ system.

Blank 1: specific response Blank 2: innate

Targeting __________: Antiviral medicines target the enzyme that allows the virus to remove the genetic material from the ___________

Blank 1: uncoating Blank 2: capsid

To do so, one of the roles of the immune system is to monitor _________ ___________ for the presence of pathogens.

Bodily fluids

Natural Killer Cells

Destroy cells of the body that have been infected by pathogens (Nonspecific)

Macrophages, Dendritic Cells, and Neutrophils

Destroy pathogens by phagocytosis (Nonspecific)

b. One of the biggest setbacks to influenza research is the lack of ability of viruses to evolve over time

False

c. Since viruses never change, an adaptive immune system is not necessary

False

The _________ has several levels of defense to protect the body from exposure to pathogens, such as influenza.

Immune system

When creating antiviral medications against the influenza virus, it is possible to target an aspect of its _______________.

Life cycle

The lymphatic system is also involved in the production and maturation of immune system cells called _______________.

Lymphocytes

After a vaccine is given, the immune system generates ______________________ for the antigen

Memory B and T cells

_______________ can survive for years in the body and remain ready to respond rapidly and efficiently to a subsequent encounter with a pathogen.

Memory cells

Chemicals released by skin, mucous of the respiratory tract, and stomach acid, are all considered __________ _____________ __________ that prevent pathogens from entering the body.

Nonspecific physical barriers

If a pathogen's replication ____________ the defenses of the innate immune system, the adaptive response is triggered upon communication between the two immune systems.

Outpaces

The immune system and the lymphatic system work closely together to protect the body from __________.

Pathogens

B Lymphocytes

Produce antibodies to target specific antigens in the fluids of the body (Specific)

Memory _________ are also produced by the cell-mediated immunity pathway and will be stored for future exposure.

T cells

T Lymphocytes

Target cells that have been infected by a specific pathogen (Specific)

Label the image below to evaluate your knowledge of the immune system. Place your cursor on the boxes for hints

Top: Innate Defenses Boxes from Left to Right: Barriers to entry, Protective proteins, Phagocytes and natural killer cells, Inflammatory response

a. Influenza research involves constructing new vaccines and treatments

True

d. Scientists are researching ways to use antiviral agents to combat parts of the viral life cycle and the development of a universal flu vaccine

True

e. Newer vaccines are being designed to use other proteins within the capsid, called core proteins, as the basis for programming the adaptive responses

True

When pathogens are ingested by the macrophages and dendritic cells of the immune system, they are digested and a small portion of the pathogen, _____________ is attached to the surface of the macrophage.

an antigen