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Sexual Development

6. Sexual Development. Fertilization Is the Fusion of One Sperm with One Ovum. Fertilization, or conception, occurs when a single sperm enters a single ovum to produce a zygote Prior to fertilization, sperm must undergo capacitation and the acrosome reaction

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Sexual Development

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  1. 6 Sexual Development

  2. Fertilization Is the Fusion of One Sperm with One Ovum • Fertilization, or conception, occurs when a single sperm enters a single ovum to produce a zygote • Prior to fertilization, sperm must undergo capacitation and the acrosome reaction • After the sperm fuses with the plasma membrane, a chemical reaction blocks the entry of other sperm, and the ovum completes its second meiotic division

  3. Figure 6.3Fertilization and production of the conceptus

  4. Fertilization Is the Fusion of One Sperm with One Ovum • A conceptus is the entire collection of cells derived from the fertilized ovum from the 2-cell stage onward • By the 32-cell stage, the conceptus is called a blastocyst—it develops a fluid-filled cavity and implants itself in the wall of the uterus • The inner cell mass becomes the embryo and the outer layer of cells forms part of the placenta • Around 6 days after fertilization, the blastocyst secretes the hormone human chorionic gonadotropin (hCG), which signals mother’s body that implantation has occurred

  5. Figure 6.4Development of the human conceptus

  6. Figure 6.5Blastocyst in the process of implanting itself

  7. During Embryonic Life the Body Plan and Organ Systems Develop • By 2 weeks after fertilization, the embryo consists of three layers of cells: ectoderm, mesoderm, and endoderm • During the embryonic phase of (2–6 weeks postconception) all major organ systems have begun to develop • After this point, the embryo is referred to as a fetus; subsequent fetal development involves growth and the functional maturation of body systems

  8. Figure 6.6Stages of prenatal development

  9. Genetic Sex Is Determined at Fertilization • Our understanding of sex differentiation is based upon studies with rabbits conducted by the French embryologist Alfred Jost

  10. Figure 6.7Alfred Jost’s experiments on rabbits

  11. Genetic Sex Is Determined at Fertilization • Six week old embryos possess undifferentiated structures called “genital ridges” that will develop into either testes or ovaries • Male development depends upon the presence of the SRY gene, which causes the fetus to develop testes, which secrete testosterone and anti-Müllerian hormone (AMH) • Female development (with the exception of ovaries) proceeds in the absence of specific genetic instructions, although several genes are involved in both stimulating ovarian development and inhibiting testis development

  12. Figure 6.8The genetic basis of sex determination

  13. Figure 6.9Sex determination

  14. Sexual Development Involves Growth or Breakdown of Precursor Structures • At 6 weeks postconception, both male and female embryos possess two sets of ducts that run from each gonad to the future site of the external genitalia • In male fetuses, testosterone stimulates the Wolffian ducts to develop into the epididymis, vas deferens, ejaculatory ducts, and seminal vesicles, and AMH causes the Müllerian to regress and disappear • In female fetuses, in the absence of AMH, the Müllerian ducts develop into the oviducts, uterus, and the deeper part of the vagina, while the Wolffian ducts regress and disappear in the absence of testosterone

  15. Figure 6.11Development of the male and female reproductive tracts

  16. Sexual Development Involves Growth or Breakdown of Precursor Structures • At this time, the external genitals of male and female embryos are identical and consist of the genital tubercle (forms glans of penis or clitoris), urethral folds (forms shaft of penis or labia minora), and urethral swellings (forms scrotum or labia majora) • In male fetuses, testosterone must be converted to 5-dihydrotestosterone (DHT) for masculinization of the external genitalia to occur • In female fetuses, feminization of genitals occurs in the absence of hormonal signals

  17. Figure 6.12Development of the male and female external genitalia(Part 1)

  18. Figure 6.12Development of the male and female external genitalia(Part 2)

  19. Figure 6.12Development of the male and female external genitalia(Part 3)

  20. Several Types of Atypical Sex Development Exist in Humans • Chromosomal anomalies can occur when there are fewer or more than two sex chromosomes • Turner syndrome (XO) individuals are phenotypic females who do not enter puberty and are infertile • Klinefelter syndrome (XXY) individuals are phenotypic males who are generally tall with somewhat feminized secondary sex characteristics and low testosterone levels

  21. Box6.1Biology of Sex: Atypical Development: Chromosomal Anomalies

  22. Several Types of Atypical Sex Development Exist in Humans • Gonadal intersexuals, historically called true hermaphrodites, possess both ovarian and testicular tissue

  23. Box 6.2Biology of Sex: Atypical Development: Gonadal Intersexuality

  24. Several Types of Atypical Sex Development Exist in Humans • In androgen insensitivity syndrome (AIS), genetic males who are unresponsive to androgens develop as phenotypic females but with no internal reproductive structures

  25. Box 6.3 Biology of Sex: Atypical Development: Androgen Insensitivity Syndrome

  26. Several Types of Atypical Sex Development Exist in Humans • Congenital adrenal hyperplasia (CAH) leads to increased androgen production by the adrenal gland • Genetic females with CAH may have masculinized genitals (e.g., elongated clitoris, fused labia)

  27. Box 6.4 Biology of Sex: Atypical Development: Congenital Adrenal Hyperplasia

  28. Several Types of Atypical Sex Development Exist in Humans • Individuals with 5-reductase deficiency cannot convert testosterone to DHT • Genetic males have genitals that are not fully masculinized at birth

  29. Box 6.5 Biology of Sex: Atypical Development: 5α-Reductase Deficiency

  30. Several Types of Atypical Sex Development Exist in Humans • Males with hypospadias or a micropenis have a misplaced urethral opening or small penis, respectively

  31. Box 6.6 Biology of Sex: Atypical Development: Hypospadias and Micropenis

  32. Hormones Influence Sexual Differentiation of the Central Nervous System • The CNS contains sexually dimorphic structures and cell groups: • Onuf’s nucleus innervates motor neurons of the pelvic floor, including the base of the penis • It is larger and contains more neurons in men than in women • Medial preoptic area of the anterior hypothalamus is associated with male sexual behavior in rodents • Within this region in humans, the third interstitial nucleus of the anterior hypothalamus (INAH3) is larger in males than in females

  33. Figure 6.14The third interstitial nucleus of the anterior hypothalamus (INAH3)

  34. Hormones Influence Sexual Differentiation of the Central Nervous System • Numerous structural, functional, and chemical differences have been identified throughout the brains of men and women, although the significance of these differences is unclear • These differences may arise as a consequence of hormone action during sensitive periods of development

  35. Early Hormonal Exposure Influences Later Sexual Behavior • Experiments in rodents reveal both organizational and activational actions of hormones • Organizational effects of hormones can affect brain circuitry and generally occur during sensitive periods of development • Activational effects occur when the presence of a hormone has a direct effect on a behavior or response • Primates exhibit multiple sensitive periods during which hormonal effects can impact subsequent behavior

  36. Figure 6.17Hormones and sexual behavior in rats

  37. Other Y-Linked Genes Besides SRY Influence Development • Several Y-linked genes are necessary for normal spermatogenesis • There is a gene on the Y chromosome that increases stature • In mice, some brain and behavioral differences are influenced by genetic mechanisms not involving SRY and testicular hormones

  38. External Factors Influence Prenatal Sexual Development • Environmental factors such as maternal stress or exposure to hormones and related chemicals and drugs can affect sexual development • Prenatal hormone exposure creates a predisposition that can be modified by social and environmental circumstances, leading to differences in sexual behavior and brain anatomy

  39. Puberty Marks Sexual Maturation • Puberty is the biological transition to sexual maturity • Pubertal growth spurts both begin and end earlier in girls than in boys, leading to an increase in height as well as changes in skeletal structure and body composition

  40. Figure 6.19Growth velocity curves for boys and girls

  41. Puberty Marks Sexual Maturation • Puberty is initiated by the pulsatile secretion of GnRH, which stimulates gonadotropin and gonadal hormone secretion • Body weight or the accumulation of a critical amount of body fat may use hormonal signals to trigger the hypothalamus to initiate pubertal maturation

  42. Figure 6.24Hormonal control of puberty

  43. Puberty Marks Sexual Maturation • In girls, changes during puberty include breast development, growth of axillary (armpit) and pubic hair, and growth and maturation of the internal reproductive tract and external genitalia • The onset of menstruation, or menarche, is a dramatic event in female pubertal development and has been starting at progressively younger ages in Western countries

  44. Figure 6.21Typical development of breasts in girls at puberty

  45. Figure 6.22Puberty is starting earlier

  46. Puberty Marks Sexual Maturation • In boys, growth of the penis and growth of pubic, body, and axillary hair, as well as deepening of the voice usually follow enlargement of the testes • Ejaculation may occur following masturbation or during sleep (nocturnal emissions)

  47. Figure 6.23Typical development of male external genitalia at puberty

  48. Intersexuality Raises Complex Social and Ethical Issues • Intersex conditions may affect an individuals psychological well-being as well as anatomy and sexual function • The Accord Alliance is an organization devoted to promoting the medical and psychological health of people with intersexed conditions, in part by increasing social awareness, understanding, and acceptance of people with these conditions

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