Basolateral Fluid Secretion Apical endoplasmic reticulum Ca2+ store

Slides:

Advertisements

Similar presentations

Cell Signaling A. Types of Cell Signaling

Advertisements

Cells and Their Environment

How drugs works: Molecular aspect. Objective/Learning outcome:  G-protein and role.  Targets for G-proteins.  Signal transduction via second-messengers.

Cell Communication (Signaling) Part 2

BIOC DR. TISCHLER LECTURE 22 SIGNAL TRANSDUCTION: G-PROTEINS.

Signal Transduction Pathways

3. Receptors Rods – sense low levels of light Cones – sense higher level blue, green & red light Fig

Channel-linked Receptors aka: ligand-gated channels a receptor type seen in synaptic transmission rapid response (ms) limited response –depolarization.

Cellular Physiology of Secretion and Absorption Johnson Chap Jack L. Leonard 2004.

Basic Concepts of Metabolism

Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings Chapter 11 Cell Communication.

Chap. 15 Problem 2 Signaling systems are classified based on the distance over which they act. Endocrine signaling acts over long distances within the.

Please turn in your completed case study (all parts!)

Copyright, 1999 © Mark Chambers Endocrine Physiology Dr. Mark Chambers D.V.M., Ph.D.

University of Jordan1 Receptors Functions and Signal Transduction- L3 Faisal I. Mohammed, MD, PhD.

Cell Biology of Salivary Protein Secretion Biology of salivary glands (BMS 513) Nisha D’Silva DDS, PhD Wednesday, May 16, am, Rm. G322.

Transport: Passive and Active. Structure of Cell membranes Fluid not rigid Selectively permeable Made of a phospholipid bilayer Embedded with proteins.

Permeability Of Lipid Bilayer Smaller and more hydrophobic molecules diffuse across membrane more rapidly.

Cell Communication.

CHAPTER 11 CELL COMMUNICATION. Local ‘talk’: Paracrine Signaling (local secretions from neighboring cells), direct cell to cell ‘talk’/via diffusible.

Chapter 11 Cell Communication. LE 11-2 Exchange of mating factors Mating Receptor a   factor a  a factor Yeast cell, mating type a Yeast cell, mating.

Chapter 14. Signal Transduction Signal transduction is the process by which an extracellular signal alters intracellular events. 1. First and second messengers.

Lecture: Cell Signaling

Cell Biology of Salivary Protein Secretion Biology of salivary glands (BMS 513) Nisha D’Silva DDS, PhD Monday, June 3, am, Rm G322.

IP 3 R SERCA Ca 2+ BiP Endoplasmic reticulum Ca 2+ = 5x10 -5 M Inactive PERK RyR ATP Ca 2+ Activated PERK Ca 2+ IP 3 GCPR Ligand Receptor-mediated generation.

AP Biology Cell Communication. AP Biology Communication Methods  Cell-to-cell contact  Local signaling  Long distance signaling.

Membrane Function Signal Transduction. I. Introduction to Receptors & Signal Transduction.

CELL HOMEOSTASIS & TRANSPORT. Cell Transport  Cell transport is moving materials into, out of, or within the cell  Transport within the cell (intracellular)

Cell Communication By Balaji Krishnan. Learning Objectives.

Homeostasis & Transport

Cell Signaling: A Molecular View

Chapter 11 Cell Communication.

Cell Communication.

Introduction to Receptors

Cell Communication Chapter 5.

Pharmacodynamics III Receptor Families

3.D.3 Signal Transduction Signal transduction pathways link signal reception with cellular response.

Cellular Signaling Ch. 11.

Cell Communication.

Cell Communication Review

Chapter 11 Cell Communication.

Cell signaling and communication

Unit 4 Cell Communication (Signaling) Part 2

Cell Communication.

Chapter 11 Cell Communication.

Cell Communication.

Physiology lecture 1 – part 2 Cellular transport and signaling

Cell to Cell Communication via G-Protein Linked Receptors

Cell Communication (Signaling) Part 2

Cell Communication (Signaling) Part 2

Intracellular Receptors

Cell Communication.

Eric Niederhoffer SIU-SOM

Overview: The Cellular Internet

Insulin Secretion: Fatty Acid Signalling via Serpentine Receptors

Ch.11: Cell Communication

Cell Communication (Signaling) Part 2

Cell Communication CHAPTER 11.

Classic mechanisms of action of ETEC toxins (see the text for details and additional proposed mechanisms). Classic mechanisms of action of ETEC toxins.

Let's look at cysts from both sides now

Cell Communication.

Cell Communication (Signaling) Part 2

Function introduction to G proteins (more details in another lecture)

Vocabulary Match-Fest

Review Quiz Please open this review in a slide show mode. Answer a question first, then go to the next slide for the correct answer.

Cell Signaling: A Molecular View

Long-distance signaling

Presentation transcript:

Basolateral Fluid Secretion Apical endoplasmic reticulum Ca2+ store nucleus Fluid Secretion secretory vesicles Introduce polarised salivary acinar cells. (click) Easy to tell which end is which …. nucleus at basolateral pole (click) secretory vesicles at apical pole. (click) Endoplasmic reticulum (mainly) basolateral around nucleus …. also Ca2+ store. (click) Apical

Fluid Secretion M3 muscarinic receptor acetylcholine G-protein inositol 1,4,5 trisphosphate IP3 phospholipase C Fluid Secretion muscarinic acetylcholine receptor - 7 membrane domains (click) linked via G-protein to phospholipase C (click) acetylcholine is the physiological ligand (click) Binding to the receptor activates the G protein, the active α subunit dissociates from the β γ subunits and activates phospholipase C (click) adenylate cyclase produces inositol 1,4,5 trisphosphate, IP3 (click) ACh binding leads to IP3 production (click)

[Ca2+] Fluid Secretion K+ Na+ Cl- water receptor activation increased [Ca2+]i [Ca2+] ion channel activation fluid & electrolyte secretion IP3 Fluid Secretion IP3 is a cytoplasmic 2nd messenger and diffuses through the cell (click) causing an increase in intracellular Ca2+ activity (click) which activates an apical Cl- channel (click) .. and a basolateral K+ channel (click) The resulting transcellular electrical gradient drags Na+ from the basolateral side of the acinus into the lumen (click) NaCl in the acinus lumen drags water into the lumen by osmosis Na+ Cl- water