Marty E. Sawaya’s research while affiliated with University of Miami and other places

Alopecia areata (AA) patients show a variable response in hair regrowth with glucocorticoid (GC) steroid treatment. The biochemical mechanisms by which GCs stimulate hair growth in patients with AA is unknown, yet clinicians commonly use topical, intralesional, and even oral GC steroid therapy to treat AA. In this study, scalp biopsy specimens were obtained from 15 patients (in each group) with extensive AA, male androgenetic alopecia (AGA), and normal controls (N), and were analyzed for GC receptor (GCR) content. All patients were off therapy at the time they were studied. Tissue samples were assessed for total, occupied, and unoccupied GCR type I and II binding. Results from patients with AA show that the type II GCR is elevated and in an unoccupied state compared to AGA and N patient biopsies (p < 0.01). A factor known to activate the GCR, called thioredoxin (TR), was decreased in AA scalp compared to N and AGA (p < 0.01). Finding elevated unoccupied type II GCR with diminished TR levels indicates inhibition of cellular transcription. This may be important in explaining the variable responses seen with GC treatment for hair regrowth in patients with AA and gives the clinician possible reasons why steroids may not always be effective in treating this difficult hair disease.

Finasteride has been shown to be an effective treatment for men with androgenetic alopecia (AGA) as it restores hair growth to miniaturized hair follicles on the top of the scalp [1]. Caspases are regulators of programmed cell death, and very likely some specific caspases may function as mediators of the hair growth cycle. It is unclear whether finasteride influences the regulation of apoptosis via caspases in the hair follicle. Very little information is available regarding the role of caspases present in human hair follicles in normal scalp and in androgenetic alopecia. In this study we have analyzed the family of caspases, 1-10 along with usurpin, and XIAP, in men with normal scalp and in men with androgenetic alopecia before and after 6 months treatment with 1 mg oral finasteride treatment. Caspases 1, 3, 8 and 9 were detected predominantly within the isthmic and infundibular hair follicle area for both normal and AGA patients, however the expression of all factors, especially caspase 3 was greater in the AGA group than in the normal scalp group. AGA men had the same caspase factors but with greater expression. In the same AGA men treated with finasteride for 6 months, the expression of these factors was similar to levels in the normal group. Results from our study indicate caspase 3 to be of primary importance in normal hair homeostasis and that DHT may be signaling greater expression of caspases, inducing apoptosis in androgenetic alopecia. In conclusion, DHT may selectively regulate the caspase genes which play an important role in signaling programmed cell death, affecting the hair growth cycle.

Hirsutism, the presence of terminal (coarse) hairs in females in a male-like pattern, affects between 5% and 10% of women. Of the sex steroids, androgens are the most important in determining the type and distribution of hairs over the human body. Under the influence of androgens hair follicles that are producing vellus-type hairs can be stimulated to begin producing terminal hairs (i.e., terminalized). The activity of local 5alpha-reductase (5alpha-RA) determines to a great extent the production of dihydrotestosterone (DHT), and consequently the effect of androgens on hair follicles. While there are two distinct 5alpha-RA isoenzymes, type 1 and type 2, the activity of these in the facial or abdominal skin of hirsute women remains to be determined. Although the definition of idiopathic hirsutism (IH) has been an evolving process, the diagnosis of IH should be applied only to hirsute patients with normal ovulatory function and circulating androgen levels. A history of regular menses is not sufficient to exclude ovulatory dysfunction, since up to 40% of eumenorrheic hirsute women are anovulatory. The diagnosis of IH, when strictly defined, will include less than 20% of all hirsute women. The pathophysiology of IH is presumed to be a primary increase in skin 5alpha-RA activity, probably of both isoenzyme types, and possibly an alteration in androgen receptor function. Therapeutically, these patients respond to antiandrogen or 5alpha-RA inhibitor therapy. Pharmacological suppression of ovarian or adrenal androgen secretion may be of additional, albeit limited, benefit. New therapeutic strategies such as laser epilation or the use of new biological response modifiers may play an important role in offering a more effective means of treatment to remove unwanted hair. Further investigations into the genetic, molecular, and metabolic aspects of this disorder, including only well defined patients, are needed.

Although there are new FDA-approved drug therapies to treat hair loss, there are many unapproved agents with claims of effectively treating hair loss. A variety of new over-the-counter agents are available for consumers to use; however, it is difficult to assess how these agents work, costs of these agents, and efficacy. This article covers the new approved and the large multitude of unapproved treatments that are used to treat hair loss.

Recent approval in the United States of two new products, Propecia (Merck Co, Rahway, NJ) and Rogaine Extra Strength 5% (Pharmacia & UpJohn Co, Kalamazoo, MI), indicated in men to promote scalp hair growth, have added a new dimension to treatment options offered by physicians in treating androgenetic alopecia (AGA). The search for new and effective agents to treat many different hair loss problems has been intensified by the increase in hair biology research taking place worldwide, from university academic institutions to the pharmaceutical companies. All have a desire to profit from marketing such drugs that have been termed, "cosmeceuticals". Millions of men and women of every race suffer from various forms of alopecia, the most common being AGA where the target tissue active androgen, 5 alpha-dihydrotestosterone (DHT) aggravates genetically programmed scalp hair follicles that results in short, fine, miniaturized hairs. Currently available to treat alopecia are drugs indicated for other disease processes because no other agents are accessible; some have severe side-effects and many are minimally effective. These prescription drugs were not originally indicated for alopecia and have not been adequately tested in controlled clinical trials to assess for efficacy, safety, and toxicity. These agents continue to be used clinically to treat patients with various forms of alopecia. As a result, a variety of new agents are emerging in the patient application process to gain protection and approval specifically for various forms of alopecia. This report reviews the most recently approved products, some of the more promising compounds in clinical trial development, as well as those in the over-the-counter (OTC) "natural" treatments category.

The androgen receptor (AR) is a structurally conserved member of the nuclear receptor superfamily. The amino-terminal domain is required for transcriptional activation and contains a region of polyglutamine encoded by CAG trinucleotide repeats. In humans, the number of CAG repeats is polymorphic. Expansion of CAG repeats in the AR has clinical implications for human disease. Androgens influence androgenetic alopecia (AGA), hirsutism, and acne; the polymorphisms in CAG repeat length may affect the clinical course of patients with these cutaneous disorders. The purpose of this study is to test for an association between these disorders and CAG repeat length. We analyzed normal lymphocyte genomic DNA from a total of 48 men and 60 women. The CAG repeat region of the AR was amplified by polymerase drain reaction (PCR) and the products were sized on polyacrylamide gels. In normal men and women controls, a range of 12 to 29 trinucleotide repeats was found, with men having 22 +/- 4 (M 6 SD), women 21 +/- 3. Men with AGA had 19 +/- 3, whereas women with AGA had 17 +/- 3. Men with acne had 21 +/- 3, whereas women had 20+/- 3; men with AGA and acne had 18 +/- 4; and women with hirsutism had 16 +/- 3. Women with a combination of at least two disorders also had 16 +/- 3 trinucleotide repeats. associated with the development of androgen-mediated skin disorders in men and women. These data suggest that CAG-repeat length in AR may affect androgen mediated gene expression in hair follicles and sebaceous glands in men and women with these androgenic skin disorders.

In this study, 12 women and 12 men, ages 18-33 y, with androgenetic alopecia were selected for biopsies from frontal and occipital scalp sites. The androgen receptor, type I and II 5alpha-reductase, cytochrome P-450-aromatase enzyme were measured and analyzed in hair follicles from these scalp biopsies. Findings revealed that both women and men have higher levels of receptors and 5alpha-reductase type I and II in frontal hair follices than in occipital follicles, whereas higher levels of aromatase were found in their occipital follicles. There are marked quantitative differences in levels of androgen receptors and the three enzymes, which we find to be primarily in the outer root sheath of the hair follicles in the two genders. Androgen receptor content in female frontal hair follicles was approximately 40% lower than in male frontal hair follicle. Cytochrome P-450-aromatase content in women's frontal hair follicles was six times greater than in frontal hair follicles in men. Frontal hair follicles in women had 3 and 3.5 times less 5alpha-reductase type I and II, respectively, than frontal hair follicles in men. These differences in levels of androgen receptor and steroid-converting enzymes may account for the different clinical presentations of androgenetic alopecia in women and men.