Most of the time, when herpes simplex virus or HSV infects a person, there are no symptoms.
In fact, it also usually moves from one person to another in the absence of symptoms, so it can therefore it can move through a population silently.
Once in a while, though, it can cause symptoms, and typically those are in the form of skin and mucous membrane lesions which can be divided into infections “above the waist”—mostly involving the mouth and tongue, and those “below the waist”—involving the genitals.
There are two types of herpes simplex viruses—HSV1 and HSV2—both of which are part of a larger family of enveloped double-stranded DNA viruses: the herpesviridae family.
Generally speaking, HSV1 tends to cause infections above the waist and HSV2 tends to cause infections below the waist, but there’s a lot of crossover because both viruses can cause both types of infections.
Although herpes is most contagious when there are virus-filled lesions present, it can also spread by asymptomatic shedding which means that herpes viruses can be in saliva or genital secretions even when there are no signs of a cold sore or genital lesion.
Typically, when herpes virus lands on a new host, in other words a person that’s never had herpes before, it dives into small cracks in the skin or mucosa and binds to epithelial cell receptors, which triggers those cells to internalize the virus.
Once inside, the virus starts up the lytic cycle, which is where its DNA gets transcribed and translated by cellular enzymes which help to form viral proteins which are packaged into new herpes viruses which can leave to go off and infect neighbouring epithelial cells.
HSV1 and HSV2 also infect nearby sensory neurons, and travel up their axon to the neuron’s cell body to start up the latent cycle.
The sensory neurons of the face have their cell bodies in the trigeminal nuclei and those around the genitalia are located in the sacral nuclei.
So that’s ultimately where the herpes virus settles in—for life!
You see, the sensory neurons aren’t destroyed, instead, they become a permanent home for the herpes virus, and from time to time, the herpes virus makes a few viral copies of itself and sends those virus particles back down the axon so they can get released and infect epithelial cells.