The hypothalamus couples with the brainstem to cause migraines

This 2016 German human study with one subject found:

“The hypothalamus to be the primary generator of migraine attacks which, due to specific interactions with specific areas in the higher and lower brainstem, could alter the activity levels of the key regions of migraine pathophysiology.”

The subject underwent daily fMRI scans, and procedures to evoke brain activity. She didn’t take any medications, and suffered three migraine attacks during the 31-day experimental period.

Neuroskeptic commented:

“The dorsal pons has previously been found to be hyperactive during migraine. It’s been dubbed the brain’s ‘migraine generator.’ Schulte and May’s data suggest that this is not entirely true – rather, it looks like the hypothalamus may be the true generator of migraine, while the brainstem could be a downstream mediator of the disorder.

A hypothalamic origin of migraines would help to explain some of the symptoms of the disorder, such as changes in appetite, that often accompany the headaches.”

The above graphic looks like the result of feedback mechanisms that either didn’t exist or inadequately handled the triggering event. Other examples of the hypothalamus lacking feedback or being involved in a deviated feedback loop include:

There are many unanswered questions with a one-person study, of course. Addressing the cause of this painful condition would find out when, where, and how a person’s hypothalamus became modified to express migraine tendencies.

I’d guess that migraine tendencies may appear as early as the first trimester of pregnancy, given that a highly functional hypothalamus is needed for survival and development in our earliest lives. Gaining as much familial and historical information as possible from the person would be necessary steps in therapies that address migraine causes. “Pinpointing the Origins of Migraine in the Brain”

Genetic imprinting, sleep, and parent-offspring conflict

This 2016 Italian review subject was the interplay of genetic imprinting and sleep regulation:

“Sleep results from the synergism between at least two major processes: a homeostatic regulatory mechanism that depends on the accumulation of the sleep drive during wakefulness, and a circadian self-sustained mechanism that sets the time for sleeping and waking throughout the 24-hour daily cycle.

REM sleep apparently contravenes the restorative aspects of sleep; however, the function of this ‘paradoxical’ state remains unknown. Although REM sleep may serve important functions, a lack of REM sleep has no major consequences for survival in humans; however, severe detrimental effects have been observed in rats.

Opposite imprinting defects at chromosome 15q11–13 are responsible for opposite sleep phenotypes as well as opposite neurodevelopmental abnormalities, namely the Prader-Willi syndrome (PWS) and the Angelman syndrome (AS). Whilst the PWS is due to loss of paternal expression of alleles, the AS is due to loss of maternal expression.

Maternal additions or paternal deletions of alleles at chromosome 15q11–13 are characterized by temperature control abnormalities, excessive sleepiness, and specific sleep architecture changes, particularly REM sleep deficits. Conversely, paternal additions or maternal deletions at chromosome 15q11–13 are characterized by reductions in sleep and frequent and prolonged night wakings.

The ‘genomic imprinting hypothesis of sleep’ remains in its infancy, and several aspects require attention and further investigation.” “Genomic Imprinting: A New Epigenetic Perspective of Sleep Regulation”

A commenter to the review referenced a 2014 study Troubled sleep: night waking, breastfeeding, and parent–offspring conflict that received several reactions, including one by the same commenter. Here are a few quotes from the study author’s consolidated response:

“‘Troubled sleep’ had two major purposes. The first was to draw attention to the oppositely perturbed sleep of infants with PWS and AS and explore its evolutionary implications. The involvement of imprinted genes suggests that infant sleep has been subject to antagonistic selection on genes of maternal and paternal origin with genes of maternal origin favoring less disrupted sleep.

My second major purpose was a critique of the idea that children would be happier, healthier and better-adjusted if we could only return to natural methods of child care. This way of thinking is often accompanied by a belief that modern practices put children at risk of irrevocable harm. The truth of such claims is ultimately an empirical question, but the claims are sometimes presented as if they had the imprimatur of evolutionary biology. This appeal to scientific authority often seems to misrepresent what evolutionary theory predicts: that which evolves is not necessarily that which is healthy.

Why should pregnancy not be more efficient and more robust than other physiological systems, rather than less? Crucial checks, balances and feedback controls are lacking in the shared physiology of the maternal–fetal unit.

Infant sleep may similarly lack the exquisite organization of systems without evolutionary conflict. Postnatal development, like prenatal development, is subject to difficulties of evolutionarily credible communication between mothers and offspring.”

The author addressed comments related to attachment theory:

“Infants are classified as having insecure-resistant attachment if they maintain close proximity to their mother after a brief separation while expressing negative emotions and exhibiting contradictory behaviors that seem to both encourage and resist interaction. By contrast, infants are classified as having insecure-avoidant attachment if they do not express negative emotion and avoid contact with their mother after reunion.

Insecure-avoidant and insecure-resistant behaviors might be considered antithetic accommodations of infants to less responsive mothers; the former associated with reduced demands on maternal attention, the latter with increased demands. A parallel pattern is seen in effects on maternal sleep. Insecure-avoidant infants wake their mothers less frequently, and insecure-resistant infants more frequently, than securely attached infants.

Parent–child interactions are transformed once children can speak. Infants with more fragmented sleep at 6 months had less language at 18 and 30 months. Infants with AS have unconsolidated sleep and never learn to speak. The absence of language in the absence of expression of one or more MEGs [maternally expressed imprinted genes] is compatible with a hypothesis in which earlier development of language reduces infant demands on mothers.”

Regarding cultural differences:

“China, Taiwan and Hong Kong have both high rates of bed-sharing and high rates of problematic sleep compared with western countries. Within this grouping, however, more children sleep in their own room but parents report fewer sleep problems in Hong Kong than in either China or Taiwan. Clearly, cultural differences are significant, and the causes of this variation should be investigated, but the differences cannot be summarized simply as ‘west is worst’.

The fitness [genetic rather than physical fitness] gain to mothers of an extra child and the benefits for infants of longer IBIs [interbirth intervals] are substantial. These selective forces are unlikely to be orders of magnitude weaker than the advantages of lactase persistence, yet the selective forces associated with dairying have been sufficient to result in adaptive genetic differentiation among populations. The possibility of gene–culture coevolution should not be discounted for behaviors associated with infant-care practices.”

Regarding a mismatch between modern and ancestral environments:

“I remain skeptical of a tendency to ascribe most modern woes to incongruence between our evolved nature and western cultural practices. We did not evolve to be happy or healthy but to leave genetic descendants, and an undue emphasis on mismatch risks conflating health and fitness.

McKenna [a commenter] writes ‘It isn’t really nice nor maybe even possible to fool mother nature.’ Here I disagree. Our genetic adaptations often try to fool us into doing things that enhance fitness at costs to our happiness.

Our genes do not care about us and we should have no compunction about fooling them to deliver benefits without serving their ends. Contraception, to take one obvious example, allows those who choose childlessness to enjoy the pleasures of sexual activity without the fitness-enhancing risk of conception.

Night waking evolved in environments in which there were strong fitness costs from short IBIs and in which parents lacked artificial means of birth-spacing. If night waking evolved because it prolonged IBIs, then it may no longer serve the ends for which it evolved.

Nevertheless, optimal infant development might continue to depend on frequent night feeds as part of our ingrained evolutionary heritage. It could also be argued that when night waking is not reinforced by feeding, and infants sleep through the night, then conflict within their genomes subsides. Infants would then gain the benefit of unfragmented sleep without the pleiotropic costs of intragenomic conflict. Plausible arguments could be presented for either hypothesis and a choice between them must await discriminating evidence.”

Commenters on the 2014 study also said:

[Crespi] The profound implications of Haig’s insights into the roles of evolutionary conflicts in fetal, infant and maternal health are matched only by the remarkable absence of understanding, appreciation or application of such evolutionary principles among the research and clinical medical communities, or the general public.

[Wilkins] A mutation may be selected for its effect on the trait that is the basis of the conflict, but that mutation also likely affects other traits. In general, we expect that these pleiotropic effects to be deleterious: conflict over one trait can actually drive other traits to be less adapted. Natural selection does not necessarily guarantee positive health outcomes.

[McNamara] Assuming that AS/REM is differentially influenced by genes of paternal origin then both REM properties and REM-associated awakenings can be better explained by mechanisms of genomic conflict than by traditional claims that REM functions as an anti-predator ‘sentinel’ for the sleeping organism.

[Hinde] Given this context of simultaneous coordination and conflict between mother and infant, distinguishing honest signals of infant need from self-interested, care-extracting signals poses a challenge.

Contending with epigenetic consequences of violence to women

This 2016 UK review subject was the interplay of genomic imprinting and intergenerational epigenetic information transfer:

“A range of evolutionary adaptations associated with placentation transfers disproportionate control of this process to the matriline, a period unique in mammalian development in that there are three matrilineal genomes interacting in the same organism at the same time (maternal, foetal, and postmeiotic oocytes).

Genomic imprinting is absent in egg laying mammals and only around 6 imprinted genes have been detected in a range of marsupial species; this is in contrast to eutherian mammals where around 150 imprinted genes have been described.

The interactions between the maternal and developing foetal hypothalamus and placenta can provide a template by which a mother can transmit potentially adaptive information concerning potential future environmental conditions to the developing brain.

In circumstances either where the early environment provides inaccurate cues to the environmental conditions prevailing when adult due to rapid environmental change or when disruptions to normal neural development occur, the mismatch between the environmental predictions made during early development and subsequent reality may mean that an organism may have a poorly adapted phenotype to its adult environment. An appreciation of these underlying evolutionary salient processes may provide a novel perspective on the casual [causal] mechanisms of a range of health problems.

The concept of a brain that is not pathological in the classical sense but it is simply mismatched to its environment has been most extensively studied in the context of ancestral and early developmental nutrition. However, this concept can be extended to provide insights into the development of a range of alternative neural phenotypes.”

The review’s final sentence was:

“Examination of the adaptive potential of a range of neural and cognitive deficits in the context of evolutionary derived foetocentric brain and placental development, epigenetics and environmental adaptation may provide novel insights into the development and potential treatment of a range of health, neurological, and cognitive disorders.”

One of the reviewers was cited in Epigenetic DNA methylation and demethylation with the developing fetus, which the review cited along with Epigenetic changes in the developing brain change behavior.

Researchers who avoid hypotheses that can’t be proven wrong could certainly test the subject matter of this review if they investigated their subjects’ histories.

For example, let’s say a patient/subject had symptoms where the “150 imprinted genes” were implicated. What are the chances a clinician or researcher would be informed by this review’s material and investigate the mother’s and grandmother’s histories?

For clinicians or researchers who view histories as irrelevant busywork: how many tens of millions of people alive today have mothers who were fetuses when their grandmothers were adversely affected by violence? Wouldn’t it be appropriate to assess possible historical contributions of:

“The mismatch between the environmental predictions made during early development and subsequent reality”

to the patient’s/subject’s current symptoms? “Placental, Matrilineal, and Epigenetic Mechanisms Promoting Environmentally Adaptive Development of the Mammalian Brain”

A one-sided review of stress

The subject of this 2016 Italian/New York review was the stress response:

“The stress response, involving the activation of the hypothalamic-pituitary-adrenocortical axis and the consequent release of corticosteroid hormones, is indeed aimed at promoting metabolic, functional, and behavioral adaptations. However, behavioral stress is also associated with fast and long-lasting neurochemical, structural, and behavioral changes, leading to long-term remodeling of glutamate transmission, and increased susceptibility to neuropsychiatric disorders. Of note, early-life events, both in utero and during the early postnatal life, trigger reprogramming of the stress response, which is often associated with loss of stress resilience and ensuing neurobehavioral (mal)adaptations.”

A key point in the review was the intentional dismissal of the role of GABA in favor of the role of glutamate:

“The changes in neuronal excitability and synaptic plasticity induced by stress are the result of an imbalance of excitatory (glutamatergic) and inhibitory (GABAergic) transmission, leading to long-lasting (mal)adaptive functional modifications. Although both glutamate and GABA transmission are critically associated with stress-induced alteration of neuronal excitability, the present review will focus on the modulation of glutamate release and transmission induced by stress and glucocorticoids.”

No particular reason was given for this bias. I inferred from the review’s final sentence that the review’s sponsors and funding prompted this decision:

“In-depth studies of changes in glutamate transmission and dendrite remodeling induced by stress in early and late life will help to elucidate the biological underpinnings of the (mal)adaptive strategies the brain adopts to cope with environmental challenges in one’s life.”

The bias led to ignoring evidence for areas the reviewers posed as needing further research. An example of relevant research the reviewers failed to consider was the 2015 Northwestern University study I curated in A study that provided evidence for basic principles of Primal Therapy that found:

“In response to traumatic stress, some individuals, instead of activating the glutamate system to store memories, activate the extra-synaptic GABA system and form inaccessible traumatic memories.” “Stress Response and Perinatal Reprogramming: Unraveling (Mal)adaptive Strategies”

A followup study of DNA methylation and age

This 2016 Finnish human study was a followup to A study of DNA methylation and age:

“At the 2.55-year follow-up, we identified 19 mortality-associated CpG sites that mapped to genes functionally clustering around the nuclear factor kappa B (NF-κB) complex. None of the mortality-associated CpG sites overlapped with the established aging-associated DNAm sites.

Our results are in line with previous findings on the role of NF-κB in controlling animal life spans and demonstrate the role of this complex in human longevity.”

I was again impressed with the researchers’ frankness in the Discussion section:

“Our data do not provide a mechanistic link between the hypomethylation of these CpG sites and the risk of mortality.

Our data do not allow us to determine whether disrupted regulation of chromatin permissiveness underlies the increased mortality risk.

None of our top 250 mortality-associated methylomic sites were among the 525 common age-associated CpG sites that have been observed in more than one study.”

Regarding the lack of confirmation at the 4-year followup:

“The number of mortality-associated CpG sites was markedly reduced from the 2.55-years follow-up to the 4-years follow-up.

A substantial part of the genomic CpG sites might be constantly remodeled, and during 4 years, their methylation levels are likely to change to an extent that their predictive ability in our population is reduced. The longer follow-up time also allows more time for stochastic mortality determinants, such as trauma, to operate, which may thus weaken the role of the genomic predictors.”

The epigenetic clock method was investigated:

“The DNAm age has also been recently demonstrated to predict all-cause mortality in four different cohorts of elderly individuals and in Danish twins. However, the DNAm age was not predictive of mortality in our study.

One reason for the negative finding might be that individuals in our cohort were all very old at baseline (90 years), and death at this age likely has different underpinnings than at younger old ages and when assessed in cohorts with wider age spectra.”[]=8278&path[]=24504 “Methylomic predictors demonstrate the role of NF-κB in old-age mortality and are unrelated to the aging-associated epigenetic drift”

The current paradigm of child abuse limits pre-childhood causal research

As an adult, what would be your primary concern if you suspected that your early life had something to do with current problems? Would you be interested in effective treatments of causes of your symptoms?

Such information wasn’t available in this 2016 Miami review of the effects of child abuse. The review laid out the current paradigm mentioned in Grokking an Adverse Childhood Experiences (ACE) score, one that limits research into pre-childhood causes for later-life symptoms.

The review’s goal was to describe:

“How numerous clinical and basic studies have contributed to establish the now widely accepted idea that adverse early life experiences can elicit profound effects on the development and function of the nervous system.”

The hidden assumption of almost all of the cited references was that these distant causes can no longer be addressed. Aren’t such assumptions testable here in 2016?

As an example, the Discussion section posed the top nine “most pressing unanswered questions related to the neurobiological effects of early life trauma.” In line with the current paradigm, the reviewer assigned “Are the biological consequences of ELS [early life stress] reversible?” into the sixth position.

If the current paradigm encouraged research into treatment of causes, there would probably already be plenty of evidence to demonstrate that directly reducing the source of the damage would also reverse the damaging effects. There would have been enough studies done so that the generalized question of reversibility wouldn’t be asked.

Aren’t people interested in human treatments of originating causes so that their various symptoms don’t keep bubbling up? Why wouldn’t research paradigms be aligned accordingly?

The review also demonstrated how the current paradigm of child abuse misrepresents items like telomere length and oxytocin. Researchers on the bandwagon tend to forget about the principle Einstein expressed as:

“No amount of experimentation can ever prove me right; a single experiment can prove me wrong.”

That single experiment for telomere length arrived in 2016 with Using an epigenetic clock to distinguish cellular aging from senescence. The seven references the review cited for telomere length that had “is associated with” or “is linked to” child abuse findings should now be viewed in a different light.

The same light shone on oxytocin with Testing the null hypothesis of oxytocin’s effects in humans and Oxytocin research null findings come out of the file drawer. See their references, and decide for yourself whether or not:

“Claimed research findings may often be simply accurate measures of the prevailing bias.” “Paradise Lost: The Neurobiological and Clinical Consequences of Child Abuse and Neglect”

Beneficial epigenetic effects of mild stress with social support during puberty

This 2016 Pennsylvania rodent study found:

“Stress in the context of social support experienced over the pubertal window can promote epigenetic reprogramming in the brain to increase the resilience to age-related cognitive decline in females.

These findings are actually consistent with previous studies showing that some amount of adversity, or adversity under more favorable circumstances such as social support or a protective gene polymorphism, provides a measure of ‘grit’ in coping with later life challenges.

Our findings provide a unique perspective on this relationship, as they highlight the important link between experience during the pubertal window and cognitive health during aging.”

The researchers made efforts to further investigate causes of unexpected results, such as:

“Peripubertal stress alone did not significantly alter Barnes maze performance in aging compared to aged Controls. Mice that had experienced stress with concurrent social support (CVS + SI) actually performed better than Control aged mice, specifically in learning the reversal task faster.

Peripubertal stress had no effect on corticosterone levels in response to an acute restraint stress or in sensorimotor gating and baseline startle reactivity.”

The investigations led to epigenetic findings:

“Consistent with our behavioral findings, stress in the context of social interaction resulted in long-term reprogramming of gene expression in the PFC [prefrontal cortex]. While there were no differentially expressed genes between Control and CVS females, there were 88 genes that were significantly different between Control and CVS + SI groups. Of the genes that were downregulated, a large portion (23 genes; 35%) were microRNAs.

We found that the PFC transcriptome of CVS + SI aged females was significantly enriched for predicted targets of the 23 microRNAs that were downregulated in the PFC in these mice. This suggests that microRNAs represent a mode of regulation capable of enacting far-reaching programmatic effects, and are a critical epigenetic gene expression regulatory mechanism.”

Applicability to humans was suggested by associations such as:

“A single microRNA can target more than a hundred different mRNA targets, and more than 45,000 conserved microRNA binding sites have been annotated in the 3′ UTR of 60% of human genes.”

A few limitations were noted:

“Given that mice at this age (1 year) are commonly compared to ‘late middle aged’ humans, later aging time points may yield differences in this group. Alternatively, it is possible that there was an effect of peripubertal stress that was not long-lasting due to the mild nature of our chronic stress model.

To include early neglect as a part of the stressor experience, CVS females were weaned one week earlier (PN21) than Control and CVS + SI mice. The addition of the stress of this earlier weaning likely poses a significant contribution to the programming of the PFC.”

One of the study coauthors was also a coauthor of: “Peripubertal stress with social support promotes resilience in the face of aging”