RESUMEN
El síndrome de poliquistosis ovárica (SPCO) es una de las endocrinopatías más comunes que afecta a las mujeres en edad reproductiva, su expresión clínica comienza en edad perimenárquica y si bien fue descripto hace más de 70 años, hasta el presente, el(los) mecanismo(s) fisiopatológico(s) que lo origina(n) no se conoce(n) con certeza. Debido a la gran heterogeneidad en la expresión clínica y bioquímica que caracteriza al SPCO es probable que existan subgrupos de pacientes en las que sea posible identificar alguno de los mecanismos implicados en la patogenia como el responsable de los principales signos y síntomas observados. La presente revisión propone conocer en profundidad las anormalidades neuroendocrinas como uno de los principales componentes del síndrome. En nuestra experiencia, las adolescentes con SPCO presentan hipersecreción de LH (aumento de la masa de LH secretada por pulso, de la frecuencia de pulsos y de la tasa de producción), y un patrón desordenado de secreción de LH (mayores valores de ApEn) en relación a adolescentes eumenorreicas. Varias líneas de evidencia sugieren que uno de los mecanismos responsables de estos defectos es el aumento de frecuencia de secreción del GnRH. Las adolescentes con SPCO secretan moléculas de LH con mayor actividad biológica y mayor proporción de isoformas con punto isoeléctrico más alcalino que las adolescentes eumenorreicas. La preponderancia de isoformas más básicas y más bioactivas en estas pacientes se relaciona con elevados niveles séricos de 17-hidroxiprogesterona, androstenodiona (A) y testosterona (T). El aumento de la frecuencia de pulsos de GnRH y un microambiente hormonal caracterizado por exceso de andrógenos podrían conjuntamente promover la predominante secreción de este tipo de isoformas de LH. En ausencia de obesidad, las pacientes con SPCO presentan un incremento de la tasa de producción de GH y un patrón de secreción más ordenado (menores valores de ApEn, similar al patrón de secreción de GH observado en el varón adulto). La mayor secreción de GH podría potenciar la acción gonadotrófica sobre la esteroideogénesis ovárica. Analizando la sincronía entre pares de hormonas relacionadas mediante dos técnicas complementarias (cross ApEn y cross correlación) se demuestra que las adolescentes con SPCO presentan un deterioro en las asociaciones entre LH-andrógenos comparadas con las adolescentes eumenorreicas. El desacople de la secreción bihormonal (LH-A y LH-T) en adolescentes con SPCO es consistente con defectos en el control de la secreción ovárica de andrógenos dependiente de LH y con una alteración en el control negativo que ejercen los andrógenos sobre la secreción GnRH/LH. Estas alteraciones neuroendocrinas en la unidad GnRH/LH y andrógenos ováricos podrían promover el hiperandrogenismo y alterar la maduración folicular.
Polycystic ovary syndrome (PCOS) is the most common endocrine disorder among women in reproductive age, frequently begins during adolescence causing menstrual irregularity and hirsutism. Although described up more than seventy years ago, the primary pathophysiologic mechanisms underlying this disorder remain unknown.There is not a single etiologic factor that fully accounts for the spectrum of abnormalities in the PCOS. This review addresses current knowledge about the neuroendocrine abnormalities as a major component of the syndrome. From this perspective, adolescents with PCOS exhibit an accelerated frequency and/or higher amplitude of LH pulses, augmentation of secretory burst mass, and a more disorderly LH release (higher ApEn) than eumenorrheic adolescents. Several lines of evidence suggest that the mechanisms underlying the defects in LH secretion in PCOS include an increased frequency of GnRH secretion. These patients also show elevated in vitro LH bioactivity and a preponderance of basic LH isoforms, which correlate positively with elevated serum of 17-hydroxyprogesterone, androstenedione (A), and testosterone (T) concentrations. Heightened GnRH drive of gonadotropin secretion and steroid-permissive milieu appear to jointly promote elevated secretion of basic LH isoforms. Non obese adolescents with PCOS secrete GH at a higher rate and with more orderly patterns (resembling a male profile) than controls. Indeed, GH appears to act as a co-gonadotropin. When synchronicity of paired hormone profiles was appraised by two independent, but complementary, statistical tools (cross-entropy and cross correlation), concomitant uncoupling of the pairwise synchrony of LH - androgens was demonstrated in girls with PCOS. Asynchrony of LH-A and LH-T pairs further localizes a pathway defect to LH-dependent feedforward control of ovarian androgen secretion. These abnormalities are also consistent with altered androgen negative feed-back regulation of GnRH/LH output. These data suggest that in PCOS there are anomalies of signaling between GnRH/LH and ovarian androgens that promote hiperandrogenism and impaired follicle maturation.
Asunto(s)
Humanos , Femenino , Adolescente , Síndrome del Ovario Poliquístico/sangre , Síndrome del Ovario Poliquístico/diagnóstico por imagen , Gonadotropinas/fisiología , Hormona Liberadora de Gonadotropina , Hiperandrogenismo , Gonadotropinas/efectos adversos , Gonadotropinas/química , Hormonas/química , Trastornos de la MenstruaciónRESUMEN
The present study explores the postulate that the polycystic ovarian syndrome (PCOS) is marked by failure of physiological feedforward and feedback signaling between pituitary LH and ovarian androgens. To this end, we appraised the 3-fold simultaneous overnight release of LH (assayed by high precision immunofluorometry), testosterone (RIA), and androstenedione (RIA) in 12 an- or oligoovulatory adolescents with PCOS (mean +/- SEM age, 16.4 +/- 0.47 yr) and 10 eumenorrheic girls (age, 16.5 +/- 0.45 yr). Gynecological (postmenarchal) ages (years) were also comparable at 4.8 +/- 0.39 (PCOS) and 4.0 +/- 3.6 (control; P = NS). Body mass index and fasting serum insulin and estradiol concentrations were indistinguishable in the two study cohorts. Mean overnight serum concentrations of LH (assayed by both immunofluorometry and Leydig cell bioassay), testosterone, androstenedione, and 17alpha-hydroxyprogesterone were each elevated significantly in patients with PCOS (all P = 0.027). The bivariate cross-approximate entropy (cross-ApEn) statistic was used as a sensitive barometer of altered within-axis feedback. This scale-invariant metric is designed to quantitate the joint synchrony of putatively linked (neurohormone) time series in a lag-independent pattern-sensitive manner. Here, we applied cross-ApEn to the coupled release of LH and testosterone, LH and androstenedione, and testosterone and androstenedione. Statistical comparisons of the two adolescent study cohorts unveiled consistently elevated cross-ApEn in patients with PCOS, denoting disruption of the pairwise synchrony of LH and testosterone (P = 0.0055), LH and androstenedione (P = 0.0076), and testosterone and androstenedione (P = 0.014) secretion. As an analytically distinct technique to monitor coordinate hormone release, we also applied cross-correlation analysis with variable lag. This appraisal revealed that adolescents with PCOS further exhibit 1) loss of rapid feedforward coupling between LH and testosterone output, 2) erosion of the time-lagged positive linkages between LH and androstenedione secretion, and 3) attenuation of the coordinate relationship between testosterone and androstenedione release. In summary, based on complementary, but independent, statistical tools, the present two-variable analyses unmask vivid deterioration of the joint synchrony of LH-testosterone, LH-androstenedione, and testosterone-androstenedione secretion in adolescents with PCOS. The multiplicity of the bihormonal coupling defects points to impaired feedforward and feedback signaling interfaces among the hypothalamus, pituitary gland, and ovary. Disruption of interandrogen synchrony also identifies pathophysiological dissociation of testosterone and androstenedione cosecretion. Whether presumptive failure of integrative hypothalamo-pituitary-gonadal control emerges prepubertally in girls at risk for PCOS or persists in adults with PCOS is not known.