Metabolic activity of the human ventromedial nucleus neurons in relation to sex and ageing

Gender differences in neurodevelopment and epigenetics

The concept that the brain differs in make-up between males and females is not new. For example, it is well established that anatomists in the nineteenth century found sex differences in human brain weight. The importance of sex differences in the organization of the brain cannot be overstated as they may directly affect cognitive functions, such as verbal skills and visuospatial tasks in a sex-dependent fashion. Moreover, the incidence of neurological and psychiatric diseases is also highly dependent on sex. These clinical observations reiterate the importance that gender must be taken into account as a relevant possible contributing factor in order to understand the pathogenesis of neurological and psychiatric disorders. Gender-dependent differentiation of the brain has been detected at every level of organization--morphological, neurochemical, and functional--and has been shown to be primarily controlled by sex differences in gonadal steroid hormone levels during perinatal development. In this review, we discuss howthe gonadal steroid hormone testosterone and its metabolites affect downstream signaling cascades, including gonadal steroid receptor activation, and epigenetic events in order to differentiate the brain in a gender-dependent fashion.

Sex differences in the neural circuit that mediates female sexual receptivity

Female sexual behavior in rodents, typified by the lordosis posture, is hormone-dependent and sex-specific. Ovarian hormones control this behavior via receptors in the hypothalamic ventromedial nucleus (VMH). This review considers the sex differences in the morphology, neurochemistry and neural circuitry of the VMH to gain insights into the mechanisms that control lordosis. The VMH is larger in males compared with females, due to more synaptic connections. Another sex difference is the responsiveness to estradiol, with males exhibiting muted, and in some cases reverse, effects compared with females. The lack of lordosis in males may be explained by differences in synaptic organization or estrogen responsiveness, or both, in the VMH. However, given that damage to other brain regions unmasks lordosis behavior in males, a male-typical VMH is unlikely the main factor that prevents lordosis. In females, key questions remain regarding the mechanisms whereby ovarian hormones modulate VMH function to promote lordosis.

Increased Metabolic Activity in Nucleus Basalis of Meynert Neurons in Elderly Individuals With Mild Cognitive Impairment as Indicated by the Size of the Golgi Apparatus

In this study, we examined the metabolic activity of nucleus basalis of Meynert (NBM) neurons in individuals clinically diagnosed with no cognitive impairment (NCI, n = 8), mild cognitive impairment (MCI, n = 9), and subjects with moderate Alzheimer disease (AD, n = 7). We used Golgi apparatus (GA) size as a measure of neuronal metabolic activity. Subjects with MCI showed increased NBM metabolic activity; they had significantly more neurons with larger GA size as compared with NCI and AD subjects. In contrast, more NBM neurons with extremely small GA sizes, indicating reduced metabolic activity, were seen in AD. When these cases were classified according to their AD pathology (Braak I-II, III-IV, or V-VI), Braak III-IV subjects showed significantly increased GA sizes, comparable with the increase in clinically diagnosed MCI, whereas in Braak V-VI, GA sizes were dramatically reduced. Of all MCI and NCI subjects with similar Braak III-IV pathology, the MCI subjects again had significantly larger GA sizes. The larger NBM neuronal GA size seen in MCI suggests increased metabolic activity, associated with both the clinical progression from NCI to MCI, and with the early stages of AD pathology.

Neuronal organelles and nuclear pores of hypothalamic ventromedial neurons are sexually dimorphic and change during the estrus cycle in the rat

Neurons in the ventrolateral division of the hypothalamic ventromedial nucleus (VMNvl) become hypertrophied when exposed to high estrogen levels, an effect that has been observed after estrogen treatment of ovariectomized rats as well as during the proestrus stage of the ovarian cycle. In an attempt to examine whether the neuronal hypertrophy noticed in these conditions reflects metabolic activation of the neurons we have examined, using quantitative methods, the cytoplasmic organelles involved in protein synthesis and the nuclear pores of VMNvl neurons from females on proestrus, when estrogen levels are high, and on diestrus, when estrogen levels are low. Because VMNvl neurons are sexually dimorphic with respect to their size we have performed, in parallel, similar analyses in neurons from age-matched male rats. Our results show that the volume and the surface area of the rough endoplasmic reticulum (RER) and Golgi apparatus are increased at proestrus. They also show that the density of nuclear pores is greater in males than in females whereas the volume and the surface area of the RER and Golgi apparatus are sexually dimorphic only at specific phases of the ovarian cycle: the male-female differences are notorious in the RER when females are on diestrus and in the Golgi apparatus when they are on proestrus. Given that the size of the RER and of the Golgi apparatus correlates with the level of neuronal protein synthesis, data obtained in this study suggest that the sex-related differences and the estrus cycle variations in neuronal size reflect corresponding differences and fluctuations in the metabolic activity of VMNvl neurons.

Metabolic Alterations in the Hypothalamus and Basal Forebrain in Vascular Dementia

Previously, alterations in neuronal metabolism were found in a number of brain areas of Alzheimer disease (AD) patients. In the present study we aimed at determining for the first time whether metabolic changes would also occur in vascular dementia (VD) patients in the supraoptic (SON), infundibular (INF), tuberomamillary (TMN), medial mamillary nuclei, vertical limb of the diagonal band of Broca (VDB), and nucleus basalis of Meynert. The Golgi complex (GC) size, cell size, and vasopressin mRNA levels (in the SON) were used as measures of neuronal metabolic activity in postmortem material. The GC immunoreactivity was clearly diminished in the SON, INF and TMN and was increased in the VDB of VD cases. Interestingly, in the SON and TMN, a decrease in the GC size was more pronounced in male than in female VD patients in accordance with the higher prevalence of VD in men. In 7 of 11 VD cases, vasopressin mRNA levels were significantly reduced which may contribute to urinary incontinence, one of the most common clinical symptoms in VD, and to the lower blood pressure values that are often registered at the later stages of the VD. Since the human TMN is the sole source of cerebral histamine, our data suggest deficient histaminergic transmission in the brain in VD. Diminished neuronal metabolism in the SON and INF was not observed in AD in this and previous studies, whereas the changes in the VDB and TMN are similar in VD and AD. In the present study we thus found decreased metabolic activity in several hypothalamic nuclei in VD indicating diminished production of certain hormones and neurotransmitters.

ApoE epsilon4 genotype is accompanied by lower metabolic activity in nucleus basalis of Meynert neurons in Alzheimer patients and controls as indicated by the size of the Golgi apparatus

We previously found apolipoprotein (apoE) epsilon4-dependent lower metabolic activity in nucleus basalis of Meynert (NBM) neurons in Alzheimer disease (AD). In the present study we examined the metabolic activity in the NBM of 39 mentally intact control subjects with different APOE genotype. The control subjects had either no AD pathology (Braak stage 0) or the very beginning of AD pathology (Braak stage I-II). We used the Golgi apparatus (GA) size as a measure of neuronal metabolic activity. Control subjects carrying an apoE epsilon4 allele showed reduced neuronal metabolism; they had significantly more neurons with smaller GA sizes compared to control subjects not carrying an apoE epsilon4 allele. Only control subjects not carrying an apoE epsilon4 allele had increased neuronal metabolism in Braak I-II subjects. They had more neurons with larger GA sizes compared to Braak 0 subjects, which may reflect a compensatory mechanism. Our data indicate that APOE epsilon4 may act by a lower neuronal metabolism as a risk factor for cognitive impairment in normal aging and early prodromal AD. As the disease progresses into later stages of AD (Braak V-VI) neuronal metabolism strongly diminishes, resulting in neurons with extremely small GA sizes, irrespective of APOE genotype.

Estrogen receptors and metabolic activity in the human tuberomamillary nucleus: changes in relation to sex, aging and Alzheimer’s disease

The human tuberomamillary nucleus (TMN), that is the sole source of histamine in the brain, is involved in arousal, learning and memory and is impaired in Alzheimer's disease (AD) as shown by the presence of cytoskeletal alterations, a reduction in the number of large neurons, a diminished neuronal metabolic activity and decreased histamine levels in the hypothalamus and cortex. Experimental data and the presence of sex hormone receptors suggest an important role of sex steroids in the regulation of the function of TMN neurons. Therefore, we investigated sex-, age- and Alzheimer-related changes in estrogen receptor alpha and beta (ERalpha and ERbeta) in the TMN. In addition, metabolic activity changes of TMN neurons were determined by measuring Golgi apparatus (GA) and cell size. In the present study, ERalpha immunocytochemical expression in AD patients did not differ from that in elderly controls. However, a larger amount of cytoplasmic ERbeta was found in the TMN cells of AD patients. Earlier studies, using the GA size as a parameter, have shown a clearly decreased metabolic activity in the TMN neurons in AD. In the present study, the size of the GA did not change during aging, indicating the absence of strong metabolic changes. Cell size of the TMN neurons appeared to increase during normal aging in men but not in women. Concluding, the enhanced cytoplasmic expression of ERbeta in the TMN may be involved in the diminished neuronal metabolism of these neurons in AD patients.

Changes in metabolic activity and estrogen receptors in the human medial mamillary nucleus: relation to sex, aging and Alzheimer's disease

The medial mamillary nucleus (MMN) is situated caudally in the human hypothalamus and is involved in memory processes. In search for putative sites of action in estrogen replacement therapy on memory both in aging and Alzheimer's disease (AD), we aimed at determining whether changes would occur in estrogen receptors (ER) or metabolic activity in the MMN neurons under these conditions in a sex-dependent way. The Golgi apparatus (GA) and cell size, that were previously shown to be good measures of changes in neuronal metabolic activity, were measured in the MMN of 10 young (20-50 years old), 11 elderly (56-76 years old) control men and women and 11 AD patients (54-78 years old). In addition, we investigated whether estrogen receptor alpha or beta (ERalpha or ERbeta) immunoreactivity was altered in the MMN in aging or AD. There were no sex- or AD-related differences in the GA or cell size in the MMN. Both the GA and cell size of the MMN neurons were found to be increased in postmenopausal compared to young control women accompanied by a decrease in the amount of nuclear ERbeta. The percentage of nuclear ERalpha-positive MMN neurons was markedly enhanced in AD patients compared to controls and most prominently in AD men. In AD patients the proportion of nuclear ERalpha-positive neurons was positively correlated to the Braak stages that indicate the progression of the disease. No differences in the proportion of ERbeta-positive neurons were observed between AD and control patients. We propose that estrogens play an inhibitory role with respect to the metabolic activity of human MMN, which is mediated via ERbeta. This inhibitory effect is diminished in postmenopausal women. The role of the enhanced nuclear ERalpha staining in AD, that was also found in other brain areas, remains to be elucidated.

Increased neuronal metabolic activity and estrogen receptors in the vertical limb of the diagonal band of Broca in Alzheimer's disease: relation to sex and aging

Changes in the interaction between sex hormones and the cholinergic system are presumed to play a role in cognitive decline in aging and Alzheimer's disease (AD). The hippocampus is one of the most strongly affected brain structures in AD and the vertical limb of the diagonal band of Broca (VDB) is its major source of innervation. In the present study we found, surprisingly, for the first time that the neuronal metabolic activity as measured by the size of the Golgi apparatus in the VDB gradually increases after the age of 50 years in controls and that this process starts earlier and is more pronounced in Alzheimer's disease patients. Neuronal metabolic activity in the VDB was significantly higher in AD than in control patients younger than 70 years of age and was higher in control patients over 70 years than in control patients younger than 70 years of age. The activation of VDB neurons during aging was accompanied by an increased nuclear estrogen receptor (ER) beta staining, which was stronger in patients over 70 years of age than in younger subjects (in both controls and AD patients). Interestingly, as in the nucleus basalis of Meynert, nuclear ERalpha expression was markedly enhanced in AD patients compared to controls independent of age. In addition, evidence was found for the influence of APOE genotype on ERalpha and ERbeta staining in the human VDB in aging and in AD. APOE genotype was positively correlated (epsilon 2 < epsilon 3 < epsilon 4) with the percentage of cytoplasm ERalpha-positive VDB neurons in elderly control male and female subjects and with both nuclear and cytoplasm ERbeta-positive neurons in control women. In conclusion, the VDB is compensatory activated and shows more nuclear ER expression in aging and AD in a sex- and APOE genotype-dependent way. So neither global degeneration or a strongly decreased neuronal metabolism nor a lack of sex hormone receptors in the VDB seems to contribute to the decline in cognition in aging or AD in which the hippocampus plays such a crucial role.

Estrogen receptor-alpha distribution in the human hypothalamus in relation to sex and endocrine status

The present study reports the first systematic rostrocaudal distribution of estrogen receptor-alpha immunoreactivity (ERalpha-ir) in the human hypothalamus and its adjacent areas in young adults. Postmortem material taken from 10 subjects (five male and five female), between 20 and 39 years of age, was investigated. In addition, three age-matched subjects with abnormal levels of estrogens were studied: a castrated, estrogen-treated 50-year-old male-to-female transsexual (T1), a 31-year-old man with an estrogen-producing tumor (S2), and an ovariectomized 46-year-old woman (S8). A strong sex difference, with more nuclear ERalpha-ir in women, was observed rostrally in the diagonal band of Broca and caudally in the medial mamillary nucleus. Less robust sex differences were observed in other brain areas, with more intense nuclear ERalpha-ir in men, e.g., in the sexually dimorphic nucleus of the medial preoptic area, paraventricular nucleus, and lateral hypothalamic area, whereas women had more nuclear ERalpha-ir in the suprachiasmatic nucleus and ventromedial nucleus. No nuclear sex differences in ERalpha were found, e.g., in the central part of the bed nucleus of the stria terminalis. In addition to nuclear staining, ERalpha-ir appeared to be sex-dependently present in the cytoplasm of neurons and was observed in astrocytes, plexus choroideus, and other non-neuronal cells. ERalpha-ir in T1, S2, and S8 suggested that most of the observed sex differences in ERalpha-ir are "activational" (e.g., ventromedial nucleus/medial mamillary nucleus) rather than "organizational." Species similarities and differences in ERalpha-ir distribution and possible functional implications are discussed.

Sex differences in estrogen receptor α and β expression in vasopressin neurons of the supraoptic nucleus in elderly and Alzheimer’s disease patients: no relationship with cytoskeletal alterations

In various hypothalamic and adjacent brain regions we have previously found a remarkable increase in nuclear estrogen receptor staining in Alzheimer's disease (AD). In order to see whether this was a general phenomenon or rather specific for those areas that are affected by the AD process we investigated ERalpha and ERbeta expression in the arginine-vasopressin (AVP) neurons of the human dorsolateral suparoptic nucleus (dl-SON), that is the major source of plasma AVP. These neurons remain exceptionally intact in AD. Changes in ER expression were studied in relation to early Alzheimer changes (i.e. hyperphosphorylated tau) and neuronal metabolism in AD as determined by the size of the Golgi apparatus (GA) or cell size. No difference in neuronal metabolism (i.e. GA size or cell size) of AVP neurons was observed between AD and control patients and no early cytoskeletal AD alterations were found confirming the resistance of the dl-SON to AD. While no differences between AD and control patients were present for ERalpha and ERbeta staining except for a lower proportion of nuclear ERbeta AVP-positive neurons in AD subjects, complex sex differences not directly related to AD were observed within each group. The main finding of the present study is that in the dl-SON, that remains active and spared of AD changes, the increase in nuclear ERs seen in adjacent affected areas in AD patients does not occur. This indicates that a rise of nuclear ERs is not a generally occurring phenomenon but rather related to the pathogenetic alterations of the AD process.