picture 1 shows the directed migration of two immune cell types, neutrophils (red) and macrophages (green) to a laser-induced injury in the ear of a mouse. As you can observe from the video, there are three stages to this process: 1) an initial phase characterized by fast recruitment of neutrophils (red) to the site of injury followed by 2) the slower recruitment of macrophages after which 3) the interaction between both cell types is stabilized. Recruitment to the injury site is mediated by leukotriene B4 (LTB4), a potent immune signaling molecule (Figure 1A). LTB4 binds to BLT1, a G-protein coupled receptor (GPCR), activating various signaling pathways and resulting in immune cell migration to the site of injury (Figure 1B). With this background information and your knowledge of cell and molecular biology, describe in detail in your own words, as many molecular processes as you can identify that must take place for the cell migration process depicted in the video to be achieved. For each molecular process that you identify, describe the key molecules involved as well as regulatory mechanisms (i.e., transcription involves transcription factors binding to enhancers/promoters, recruiting RNA Polymerase II, which in turn unwinds DNA via TFIIH helicase to synthesize mRNA using one strand as a template). The original publication for picture 1 is attached as background information and content therein is not be used as source material for your answer.

Transcribed Image Text:

A OH ОН .CO2H .CH3 LTB4 Membrane ruffles PI3K Rac Rho Akt/PKB PLC GSK-3B Raf-1 PKCa B-cat АРС Axin P-cat MEK1/2 B-cat Erk 1/2 Erk 1/2 B-cat p90 CREB INI TCF/LEF