Fact-checked by Grok 2 weeks ago

Apocrine

Apocrine glands are a subtype of exocrine secretory glands characterized by a mode of secretion, in which the apical portion of the secretory cells pinches off to release their contents. These glands are primarily located in the axillae (armpits), areolae of the breasts, and anogenital regions, with additional presence in areas such as the periumbilical , external auditory canals, eyelids, and nipples. Unlike eccrine glands, which are distributed across most of the body surface, apocrine glands are larger—approximately ten times in diameter—and their ducts open into hair follicles rather than directly onto the surface. They remain nonfunctional until , when hormonal stimulation activates them, leading to the production of a viscous, protein-rich, and lipid-laden sweat that is initially odorless but can develop a characteristic upon bacterial decomposition. The primary function of apocrine glands is not , which is handled by eccrine glands, but rather the secretion of substances in response to emotional or stress-related stimuli, such as or anxiety, through adrenergic innervation. Their secretions contain complex organic compounds, including proteins and , though in humans, they are often associated with production via microbial interaction. Histologically, apocrine glands consist of coiled secretory portions in the lower or subcutaneous fat, lined by a single layer of cuboidal or columnar epithelial cells rich in cytoplasm and large granules, supported by myoepithelial cells, and a double-layered ductal segment. These features distinguish them from eccrine glands, which have narrower lumens and shorter epithelia; eccrine glands have innervation for watery sweat production. Apocrine glands are implicated in several clinical conditions, including , a chronic inflammatory disorder of the apocrine-rich areas; Fox-Fordyce disease, characterized by apocrine duct obstruction; apocrine bromhidrosis, excessive odor; and , colored sweat production. Additionally, apocrine differentiation is noted in certain breast carcinomas, accounting for 0.5% to 4% of cases. Despite their limited distribution, these glands represent an important component of the skin's accessory structures, with ongoing research exploring their biochemical outputs and pathological roles.

Apocrine Secretion and Glands

Definition of Apocrine Secretion

Apocrine secretion is a specialized mode of exocrine characterized by the accumulation of secretory products within the apical of glandular epithelial cells, followed by the and release of a membrane-bound portion of that into the ductal , while the and basal regions remain intact. This process, often termed "decapitation secretion," involves the formation of an apical cap enriched with secretory granules, , and vesicles, which is then extruded without causing complete cell destruction, allowing for repeated secretory cycles. Unlike vesicular , apocrine secretion entails non-vesicular transport, where the released cytoplasmic fragments contain a complex mixture of proteins, organelles, and from various cellular compartments. The cellular proceeds in distinct phases: first, secretory materials, including electron-dense granules (ranging from 50 small vesicles to larger lipid-laden structures), aggregate at the 's apical under the of hormonal or neural stimuli. A dividing then forms at the base of this apical cap, followed by the development of tubular invaginations that facilitate the pinching off and extrusion of the cap into the . This and release ensures efficient delivery of viscous, lipid-rich secretions, preserving the structural integrity of the secretory for ongoing function. The term "apocrine" was coined in the early , with anatomist Paul Schiefferdecker formalizing its use in 1922 to differentiate this partial cytoplasmic release from secretion (which involves intact vesicle fusion with the plasma membrane) and secretion (which requires whole-cell disintegration). Although observations of apocrine-like processes date back to the in glands, the modern classification emphasized its role in polarized epithelia. A representative example of apocrine secretion is observed in mammary gland epithelial cells during the initial stage of lactation, where colostrum—the first milk produced in the 3–5 days postpartum—is released through apical cytoplasmic degeneration, combining apocrine budding with merocrine transport to deliver nutrient- and antibody-rich fluid to the newborn. This mechanism highlights apocrine secretion's adaptability in producing immunologically active secretions. Apocrine secretion primarily characterizes the function of apocrine glands but describes the cellular process applicable across various exocrine tissues.

Anatomy and Distribution of Apocrine Glands

Apocrine glands are characterized by a coiled secretory portion located in the or at the dermo-subcutaneous junction, consisting of a large lined by cuboidal to columnar epithelial cells surrounded by myoepithelial cells and a . The secretory portion features wide , with the coiled structure having an outer diameter of approximately 800 μm and individual tubules measuring 120–200 μm in outer diameter and 80–100 μm in inner diameter. These glands are larger and more branched than eccrine glands, which are simple coiled tubules. A straight duct, lined by a double layer of cuboidal , extends from the secretory portion and opens into the upper portion of a within the pilosebaceous unit, rather than directly onto the surface. In humans, apocrine glands are primarily distributed in specific hairy regions, with the highest concentrations in the axillae and anogenital areas, including the perianal region, , , and . They are also present in the areolae and nipples, as well as modified forms such as the glands of Moll on the eyelids and ceruminous glands in the external auditory canal. Sparse distributions occur in the and face, but these glands are absent from palms, soles, and most other glabrous areas. Embryologically, apocrine glands originate as downgrowths from the , forming from the outer root sheath of pilosebaceous units during fetal development, with structures present at birth but remaining inactive until . Their maturation and functional onset are influenced by hormones at , leading to increased development in androgen-sensitive areas. In humans, apocrine glands are relatively sparse and regionally restricted compared to many other mammals, where they are more widely distributed across the body surface and often serve prominent roles in scent production; for instance, they are absent in and reduced in density among relative to other . This limited prevalence in humans is associated with specialized production in confined areas.

Physiology and Function

Apocrine glands secrete a viscous, odorless primarily composed of , proteins, and steroids, which is released into follicles and subsequently becomes odorous through bacterial on surface. This differs from eccrine sweat in its milky, oily consistency and higher concentration of organic compounds, such as odor-binding proteins that facilitate the transport of volatile molecules. The activity of apocrine glands is regulated primarily by emotional stress, catecholamines like adrenaline and noradrenaline, and through adrenergic neural pathways, rather than serving a major role in . These glands activate post-puberty under hormonal influence and respond to emotive stimuli via sympathetic innervation, though the exact receptor mechanisms remain under investigation. In terms of specific functions, apocrine secretions in the axillary and genital regions exhibit pheromone-like signaling, potentially influencing and sexual behaviors in humans, though this role is less pronounced than in other mammals. Modified apocrine structures, such as ceruminous glands in the , produce cerumen () containing proteins for protective purposes, while mammary apocrine cells contribute to fat secretion during . Apocrine activity shows differences, with greater responsiveness in males due to stimulation, which enlarges size and enhances secretion despite potentially fewer glands compared to females; this contributes to roles in human and signaling. Evolutionarily, apocrine glands are homologous to mammalian used for chemical communication, territorial marking, and mate , reflecting an ancient adaptive mechanism for intraspecific signaling.

Pathological Conditions

Benign Apocrine Lesions

Benign apocrine lesions encompass a range of non-malignant pathological alterations involving apocrine glands or ductal , primarily occurring in and , without posing a significant risk of progression to . These conditions often arise as incidental findings during histopathological and reflect reactive or developmental changes rather than neoplastic processes. Apocrine represents a common benign transformation of ductal or lobular , particularly in , where cuboidal cells are replaced by columnar apocrine-like cells featuring abundant granular and apical snouts. This change is frequently associated with fibrocystic , including formation, and becomes more prevalent with increasing age, often appearing after 25 years and peaking in women over 40. It is characterized histologically by dilated acini lined by these apocrine cells, without nuclear atypia or mitotic activity, distinguishing it from premalignant lesions. Apocrine hidrocystoma is a benign cystic of apocrine secretory ducts, most commonly located in the periorbital region of the face, presenting as a solitary, dome-shaped, translucent nodule filled with serous or milky fluid. These lesions are typically , measuring 3-15 mm in diameter, and exhibit a smooth surface that may appear flesh-colored to bluish. Histologically, they consist of a lined by two layers of cuboidal to columnar epithelial cells with apocrine , lacking solid growth or . Apocrine nevus, also known as apocrine gland , is a rare congenital characterized by hamartomatous proliferation of mature apocrine glands within the , leading to increased glandular density without encapsulation or malignant features. It usually manifests as a nodular or plaque-like present at birth or , predominantly on the or face, and remains stable throughout life. Microscopically, the shows lobular aggregates of well-differentiated apocrine structures embedded in fibrous , reflecting a developmental rather than a true . Apocrine adenosis involves a benign proliferation of apocrine-type glands in , often within sclerosing adenosis, featuring glandular crowding and ductal elongation but typically without significant cytologic . These lesions may present as small, firm nodules or calcifications detectable on , though they are usually incidental in biopsies. Histologically, they display enlarged apocrine cells with arranged in a lobular pattern, sometimes forming papillary projections, and are considered a variant of adenosis with low risk of associated . Clinically, benign apocrine lesions such as and adenosis in are often discovered incidentally during biopsies for other indications, with a higher prevalence in women over 40, aligning with the peak incidence of fibrocystic changes between ages 30 and 50. Apocrine hidrocystomas and nevi, being cutaneous, may be noted during routine examinations but rarely cause symptoms, affecting both genders equally though breast-related lesions predominate in females. Overall, these entities require no specific intervention beyond observation, as they do not confer substantial malignancy risk.

Apocrine Carcinoma

Apocrine carcinoma encompasses malignant neoplasms demonstrating apocrine differentiation, predominantly occurring in the breast and cutaneous sites. These tumors are defined by the presence of cells exhibiting characteristic apocrine features, including abundant eosinophilic and granular cytoplasm, prominent nucleoli, and decapitation secretion artifacts on histology. The World Health Organization classifies apocrine carcinoma as requiring apocrine cytological and immunohistochemical features in more than 90% of tumor cells. In the breast, apocrine (DCIS) represents a pre-invasive characterized by apocrine in over 90% of cells, with secretion prominently observed. This variant displays architectural patterns such as solid, cribriform, or micropapillary growth, often accompanied by luminal and calcifications, particularly in high-grade cases. Apocrine DCIS is frequently triple-negative, showing negativity for (ER), (PR), and human epidermal growth factor receptor 2 (HER2). It may arise in the context of benign apocrine metaplasia. Invasive apocrine carcinoma of the breast is a rare subtype, accounting for less than 1% of all breast malignancies, though apocrine features are noted in up to 3% of cases when not strictly defined as "pure." These tumors consist of large cells with distinct borders, abundant granular cytoplasm, and moderate to marked cytological , typically graded as 2 or 3. They are characterized by (AR) positivity and ER/PR negativity, with HER2 overexpression in approximately 30% of cases; this profile often results in aggressive behavior comparable to . apocrine carcinomas predominantly affect older women and usually present as palpable masses or are detected via screening. Cutaneous apocrine arises from apocrine glands, most commonly in the or anogenital regions, manifesting as slow-growing, painless nodules that are flesh-colored or erythematous. This rare entity exhibits local aggressiveness and a notable of , with histological features including well-to-moderately differentiated forming ductal or glandular structures in the , eosinophilic , and decapitation secretion. Molecularly, these tumors express and gross cystic disease fluid protein-15 (GCDFP-15), while lacking and expression. The condition is exceedingly uncommon, with a median age at of 67 years and no significant predilection. Across both breast and cutaneous forms, the core histological criteria involve apocrine-featured cells with eosinophilic cytoplasm and decapitation artifacts, while the molecular profile consistently includes expression and negativity, distinguishing these tumors from other adenocarcinomas.

Diagnostic Features and Management

Diagnosis of apocrine-related conditions primarily relies on as the gold standard, with immunohistochemical for gross cystic disease fluid protein-15 (GCDFP-15) serving as a key marker for apocrine differentiation in and lesions. In tissue, GCDFP-15 positivity, often combined with () expression, helps confirm apocrine features in both benign and carcinomas, though it is not universally expressed in all cases. For lesions, distinguishes apocrine origin through decapitation secretion patterns and ductal structures, supported by GCDFP-15 . modalities complement ; detects apocrine lesions as masses or calcifications, often requiring correlation with core-needle to identify or . is particularly useful for evaluating cysts like apocrine hidrocystomas, revealing well-defined cystic structures, and for involvement where it shows hypoechoic masses in apocrine s. Differential diagnosis involves assessing cellular atypia to differentiate benign apocrine from or (DCIS) in breast tissue, with features like nuclear enlargement greater than threefold, prominent nucleoli, and hyperchromasia indicating atypia warranting classification as or DCIS. In skin lesions, ruling out eccrine tumors requires histologic evaluation of ductal differentiation and secretion type, as apocrine tumors exhibit broader lumina and secretions compared to the narrower ducts of eccrine origins. Management of benign apocrine lesions is conservative; incidental apocrine metaplasia in breast tissue requires no specific beyond routine , as it poses no increased risk. Symptomatic apocrine hidrocystomas in the skin are typically managed with simple surgical excision, offering excellent cosmetic and functional outcomes without recurrence risk. For apocrine carcinomas, treatment centers on surgical intervention: lumpectomy or mastectomy for breast primaries, often with sentinel lymph node biopsy, while wide local excision with 1-2 cm margins and regional lymphadenectomy is standard for cutaneous cases. Adjuvant chemotherapy and radiation therapy are recommended for invasive breast apocrine carcinomas, particularly those with lymph node involvement, following guidelines similar to triple-negative breast cancer. In cutaneous apocrine carcinoma, postoperative radiation reduces local recurrence in high-risk cases with close margins or nodal disease. Emerging targeted therapies, including androgen receptor inhibitors like bicalutamide or enzalutamide, show promise for AR-positive apocrine breast carcinomas, with preclinical and case reports indicating tumor response in metastatic settings. Prognosis for benign apocrine lesions is excellent, with no malignant potential and minimal required. Apocrine carries a 5-year overall of approximately 82% for triple-negative subtypes, comparable to other aggressive cancers but influenced by and . Cutaneous apocrine has a 5-year recurrence-free of about 63%, with local recurrence occurring in roughly one-third of cases despite , underscoring the need for vigilant follow-up.