Everything you need to know about sebum.

Even though some consider sebum to be an enemy, it is nevertheless essential for the health and beauty of the skin and hair. Among the functions attributed to it, we can mention:

• Maintaining Epidermal Hydration: When combined with sweat, sebum forms the hydrolipidic film that covers the entire surface of the skin. It thus protects against dehydration of the horny layer by retaining hygroscopic substances in the epidermal cells, conferred by its lipid composition and therefore by its occlusive effect. For hair, its role is to prevent them from becoming dry and brittle ;

• Mechanical Barrier: Sebum also has the responsibility of protecting the skin and hair against all external elements that can harm and weaken them, such as the sun's UV rays, weather conditions, pollution, cigarette smoke, air conditioning... It prevents the penetration of foreign substances into the skin;

• Bactericidal Activity: The sebum even allows for the destruction of bacteria present on the skin and prevents any microbial contamination. During its excretion, a portion of the triglycerides present in the sebum is converted into free fatty acids under the action of bacterial hydrolases. Thus, thanks to the oleic and palmitoleic acids contained in the sebum, the skin has a slightly acidic pH that prevents the growth of "bad" bacteria. Similarly, some free fatty acids in the sebum possess antibacterial activity;

• Release of Liposoluble Antioxidants: During its excretion, sebum carries with it antioxidants, such as Vitamin E among others, to the skin surface. The presence of such constituents in the sebum helps to combat oxidation, particularly that caused by UV exposure;

• Pro- and Anti-Inflammatory Activity: Specific sebaceous lipids have been detected as expressing both pro-inflammatory and anti-inflammatory properties. Among them, oleic acid and linoleic acid are thought to promote the differentiation of immune cells (macrophages). They also contribute to increasing the potential of these cells to absorb P. acnes (a microbial agent responsible for acne), while palmitic, oleic, and stearic acids enhance the immune cells' response to the bacteria. Furthermore, linoleic acid and oleic acid are also believed to have an anti-inflammatory effect on macrophages activated by inhibiting the secretion of certain pro-inflammatory molecules following an inflammatory reaction.

The production of sebum is continuous and is not controlled by neuronal mechanisms. It is on the order ofone to two grams per 24 hours. However, its production level varies from one individual to another and is the origin of different skin types. Indeed, this lipid secretion is a process controlled by various mechanisms. Here are examples of both physiological and environmental factors that can disrupt seborrhea:

• Genetic Predisposition:Variations in sebum production may have a genetic component, with sebaceous glands showing a particular sensitivity to androgens;

• Age-related changes: During the last trimester of pregnancy, the fetus's sebaceous glands are functional. At birth, a stimulation of sebum secretion due to maternal hormones is observed and reaches its peak during the first month before slowly decreasing over the following months until it becomes almost non-existent by the sixth month. Around the age of 9 - 10 years, a new increase occurs, peaking at puberty due to the increase in testosterone in the blood. Sebum production then stabilizes in the twenties but can increase for hormonal reasons (pregnancy, menstrual cycle, contraceptive, menopause). From the thirties onwards, a decline of about 23% per decade in men and about 32% per decade in women is observed. This decrease is more pronounced in menopausal women, who experience a drop in hormones (estrogens and progesterones), than in men, where the decline is slower;

• Hormonal Issues: These are the primary factors in regulating sebum production. Indeed, three components of sebocyte function (differentiation and proliferation of sebocytes, and lipid synthesis) are controlled by hormones. Androgens (dihydrotestosterone), hydrocortisone, and growth hormone (insulin or IGF) promote the growth of sebaceous cells and lipogenesis, while estrogens and progesterone inhibit excessive activity of the sebaceous glands by exerting an antagonistic effect to androgens from a certain dosage;

• Diet too high in sugar : Studies have shown that foods with a high glycemic index (white bread, potatoes, processed foods, fruit juices, etc...), dairy products, as well as meat (due to the presence of a specific amino acid, leucine) are risk factors involved in the phenomena of excessive sebum secretion. Indeed, by increasing insulin levels, they stimulate the secretion of a growth hormone which, in turn, increases the levels of androgens in the blood;

• Circadian Rhythm: A study has highlighted the existence of a circadian rhythm in the secretion of sebum in rats, with a decrease in the activity of the sebaceous glands during the night and a peak in late morning;

• Body Temperature: A study has revealed that temperature fluctuations could influence sebum excretion. Indeed, an increase/decrease of 1°C in skin temperature could cause an increase/decrease of approximately 10% in sebum secretion. This may reflect a change in the rate of sebum excretion on the skin's surface, likely due to a change in sebum viscosity known to vary with temperature;

• Drug Interactions: Vitamin B12, anxiolytics, lithium, corticosteroids, certain tuberculosis medications, and halogens (iodine, bromine) can lead to hyperseborrhea.

There are other endogenous factors that can disrupt sebum secretion: exposure to the sun's UV rays, stress, cigarette smoke, pollution, etc...

When there is an overproduction of sebum, skin disorders can be observed. Indeed, there is a congestion of the pilosebaceous follicles, which clogs the skin pores or hair roots. The results are: Oily hair, clogged and dilated pores, appearance of imperfections such as blackheads, comedones or acne pimples and folliculitis.

Conversely, insufficient sebum production also has direct consequences on the health and quality of skin and hair. It is notably the cause of dry skin, dry and brittle hair, and peeling skin. Indeed, this low amount of sebum leads to an increased insensible water loss, but also a deterioration of keratin and the hair cuticle. This weakening of the barrier function also maintains an inflammatory state and makes the skin more prone to redness and irritation.