Neural plasticity

How to make a child less capable even before they are born: stress the pregnant mother-to-be

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This 2014 rodent study showed how to make a less-capable pup by stressing the mother early in gestation. The study centered on a placental enzyme (OGT) that translates a mother’s stress into neuroprogramming of her developing fetus.

One finding was that this enzyme was less plentiful when the fetus was male compared with female.

Another finding was that the enzyme was less plentiful when the mother was stressed early in gestation, compared with unstressed mothers.

Informed by the first two findings, the researchers studied the placentae of male pups where the mother was stressed early in gestation. They found that these placentae had lower levels of an enzyme (Hsd17b3) that converts the precursor androstenedione into testosterone.

The resultant finding was that the male pups of stressed mothers had lower levels of testosterone than the control group of male pups.

A fourth finding was that offspring of both sexes born with a placenta where the OGT enzyme was less plentiful had 10-20% less body weight, a condition that developed after weaning. The researchers attributed this finding to reduced mitochondrial function in the hypothalamus compared with normal mice.

http://www.pnas.org/content/111/26/9639.full “Targeted placental deletion of OGT recapitulates the prenatal stress phenotype including hypothalamic mitochondrial dysfunction”

Are stress-induced epigenetic changes to DNA inherited across generations?

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This 2014 Geneva/Cambridge plant study ended by stating:

“The unequivocal demonstration of transgenerational transmission of environmentally-induced epigenetic traits remains a significant challenge.

One of the critical activities erasing stress memories is conserved between plants and mammals.”

However, the researchers didn’t demonstrate that their findings were broadly applicable for mammals or organisms other than the specific plant variety they studied. Possible reasons for these limited findings were given in a 2015 Australian study referenced by Mechanisms of stress memories in plants:

“The majority of DNA methylation analyses performed in plants to date have focused on Arabidopsis, despite being relatively depleted of TEs [transposable elements] (15–20% of the genome) and being poorly methylated compared to other plant genomes.

These studies have lacked the resolution to provide the specific context and genomic location of the changes in DNA methylation.”

There are also significant differences in how epigenetic inheritance across generations may operate among different species per Epigenetic reprogramming in plant and animal development.

Neither the current study nor the above review addressed the behavioral aspect of stress-induced epigenetic inheritance across generations. For example, the behavior of a mother whose DNA was epigenetically changed by stress can induce the same epigenetic changes to her child’s DNA when her child is stressed per One way that mothers cause fear and emotional trauma in their infants:

“Our results provide clues to understanding transmission of specific fears across generations and its dependence upon maternal induction of pups’ stress response paired with the cue to induce amygdala-dependent learning plasticity.”

http://www.pnas.org/content/111/23/8547.full “Identification of genes preventing transgenerational transmission of stress-induced epigenetic states”

Maternal depression and antidepressants epigenetically change infant language development

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This 2012 human study found that infant language development accelerated when the depressed mother-to-be took antidepressants:

“Language acquisition reflects a complex interplay between biology and early experience.

Psychotropic medication exposure has been shown to alter neural plasticity and shift sensitive periods in perceptual development.”

Infant language development was delayed when the depressed mother-to-be didn’t take serotonin reuptake inhibitor medication:

“Prenatal depressed maternal mood and (S)SRI exposure were found to shift developmental milestones bidirectionally on infant speech perception tasks.”

Contrast this study with Problematic research with telomere length, which pretended that maternal depression had negligible epigenetic effects on the developing fetus, infant, and child.

http://www.pnas.org/content/109/Supplement_2/17221.full “Prenatal exposure to antidepressants and depressed maternal mood alter trajectory of infant speech perception”

Early human brain development can be greatly modified by environmental factors

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This 2014 Brazilian human study found that the brains of people born without the corpus callosum, the major connection between brain hemispheres, adapted to this loss:

“The authors believe that the development of alternative pathways results from the brain’s ability for long-distance plasticity and occurs in the utero during embryo development, which indicates that connections formed in the human brain early in development can be greatly modified, and most likely by environmental or genetic factors.”

BRAVO! MORE STUDIES LIKE THIS ONE!

People have limited capability to adapt later in life to corpus callosum injuries or to brain hemisphere disconnection.

http://www.pnas.org/content/111/21/7843.full “Structural and functional brain rewiring clarifies preserved interhemispheric transfer in humans born without the corpus callosum”

Chronic stress changes the architecture of the hippocampus, leading to depression and cognitive impairment

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This 2014 rodent study gave further details that:

“Chronic stress, which can precipitate depression, induces changes in the architecture and plasticity of apical dendrites that are particularly evident in the CA3 region of the hippocampus.”

Other studies on the hippocampus CA3 region include:

http://www.pnas.org/content/111/45/16130.full “Role for NUP62 depletion and PYK2 redistribution in dendritic retraction resulting from chronic stress”

Thalamus gating and control of the limbic system and cerebrum is a form of memory

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This 2014 German rodent study showed how the thalamus actively controlled and gated information to and from the cerebrum.

The researchers elaborated in news coverage on how thalamic control and gating represented a form of memory:

“Q. When asked if, given that

  1. Sensory signals en route to the cortex undergo profound signal transformations in the thalamus,
  2. A key thalamic transformation is sensory adaptation in which neural output adjusts to statistics and dynamics of past stimuli, and
  3. The thalamus, hypothalamus and hippocampus being part of the limbic system, might memory reconsolidation play a role in the cortico-thalamic pathway?

A. “It’s conceivable that the cortico-thalamic pathway is subject to long term plasticity,” Groh conjectures. “In fact, on a synaptic level, these inputs can change their strength and retain adjusted strengths for long periods. This process represents another – albeit much slower – form of adaptation which some interpret as memory.”

Q. Conversely, might the thalamic-cortical pathway affect memory?

A. “If particular sensory-evoked activity patterns would cause long-term changes in the cortico-thalamic pathway, and thereby change the way incoming signals are processed before reaching the cortex,” he opines, “then this would indeed reflect a form of information storage.”

In other words, there are ways in addition to our usual ideas about memory that the limbic system remembers.

Other items in news coverage included:

“Rodents, cats, primates and humans show a common architecture of two feedback pathways from cortex to thalamus in the auditory, visual and somatosensory (but not olfactory) systems.

In this study we looked at processing of touch information, and we’d like to know how homologous pathways affect visual or auditory processing. It’s fascinating that despite fundamental differences between visual, auditory and somatosensory signals, basic layouts of thalamocortical systems for each modality are quite similar.”

Other areas of research that might benefit from their study include any medical research involving the thalamocortical system that might involve inappropriate gating of sensory signals.

For a given stimulus, output neural response will not be static, but will depend on recent stimulus and response history.”

http://www.pnas.org/content/111/18/6798.full “Cortical control of adaptation and sensory relay mode in the thalamus”

The effects of early-life stress are permanent alterations in the child’s brain circuitry and function

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The sobering application of this 2013 rodent study’s finding was that if the limbic systems of human children weren’t already permanently damaged before they entered an orphanage, the orphanage experience would probably do that to them:

“The current study manipulates the type and timing of a stressor and the specific task and age of testing to parallel early-life stress in humans reared in orphanages.

The results provide evidence of both early and persistent alterations in amygdala circuitry and function following early-life stress.

These effects are not reversed when the stressor is removed nor diminished with the development of prefrontal regulation regions.”

http://www.pnas.org/content/110/45/18274.full “Early-life stress has persistent effects on amygdala function and development in mice and humans”

One way that mothers cause fear and emotional trauma in their infants

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This 2014 rodent study showed that infants learned to fear specific items in the environment that their mothers feared. The imprinting memory happened at a stage in the infants’ lives when they hadn’t yet developed the physiology to respond to the environment with fear on their own.

The learning cue was the mothers’ fear response – in this case, her distress odor, even when the mother was not present – coupled with the infants’ stress. The fear memory was stored in the infants’ amygdalae:

“These memories are acquired at younger ages compared with amygdala-dependent odor-shock conditioning and are more enduring following minimal conditioning.

Our results provide clues to understanding transmission of specific fears across generations and its dependence upon maternal induction of pups’ stress response paired with the cue to induce amygdala-dependent learning plasticity.”

There’s no scientific reason why this and related studies shouldn’t inform researchers who ignore the earliest stages of human life when studying limbic system disorders in humans.

For an example of researchers choosing to NOT be informed, look at Is this science, or a PC agenda? Problematic research on childhood maltreatment and its effects.

http://www.pnas.org/content/111/33/12222.full “Intergenerational transmission of emotional trauma through amygdala-dependent mother-to-infant transfer of specific fear”

How painful long-lasting memories are stored and why they are so strong

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This 2014 rodent study provided evidence for a portion of the neurophysiology that underlies how painful long-lasting memories are stored and why they are so strong. The amygdala was the brain area studied.

The researchers were misguided in news coverage by focusing on solutions such as external mechanisms to forget these memories. The researchers should think in terms of how their research can help people who can help themselves instead of having something externally done to them.

After all, we’re humans who can participate in therapy, not lab rats who need to be fixed.

http://www.pnas.org/content/111/51/E5584.full “Hebbian and neuromodulatory mechanisms interact to trigger associative memory formation”

Early emotional experiences change our brains: Childhood maltreatment is associated with reduced volume in the hippocampus

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This 2011 human study by the grandfather of hippocampus stress studies, Martin Teicher, quantified childhood maltreatment using the Adverse Childhood Experiences study and Childhood Trauma Questionnaire scores:

“The strongest associations between maltreatment and volume were observed in the left CA2-CA3 and CA4-DG [dentate gyrus] subfields, and were not mediated by histories of major depression or posttraumatic stress disorder.

These findings support the hypothesis that exposure to early stress in humans, as in other animals, affects hippocampal subfield development.”

The evidence is clear that early emotional experiences change our brains. There are seldom valid reasons for researchers to exclude emotional content when designing human brain studies, especially studies that involve the hippocampus.

http://www.pnas.org/content/109/9/E563.full “Childhood maltreatment is associated with reduced volume in the hippocampal subfields CA3, dentate gyrus, and subiculum”

Let’s not miss a big clue! Embryonic precursor transplants in adult hippocampus

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This 2014 rodent study induced “multiple psychosis-relevant phenotypes by disrupting specific functions of the hippocampus. The researchers then “cured” the brain disorders:

“Transplanting interneuron progenitors derived from the embryonic medial ganglionic eminence into adult hippocampus mitigates these abnormalities.”

However, full function of the hippocampus wasn’t restored.

I disagree that this study’s findings:

“Support a rationale for targeting limbic cortical interneuron function in the prevention and treatment of schizophrenia.”

People with schizophrenia aren’t lab rats and shouldn’t be treated as such. They often don’t need something externally done to them to recover from brain disorders.

Doesn’t the fact that embryonic precursors to the adult brain helped “cure” the abnormalities tell us where to look for the disorders’ beginnings? Let’s not miss a big clue as to when brain disorders may start.

http://www.pnas.org/content/111/20/7450.full “Interneuron precursor transplants in adult hippocampus reverse psychosis-relevant features in a mouse model of hippocampal disinhibition”

Similarity in form and function of the hippocampus in rodents, monkeys, and humans

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This 2013 study had something for the anti-evolutionists to chew on.

Is it anti-evolutionary for human brain and behavior researchers to not be informed by animal studies such as those that show prenatal hippocampal damage done to the fetus by the mother’s environment?

http://www.pnas.org/content/110/Supplement_2/10365.full “Similarity in form and function of the hippocampus in rodents, monkeys, and humans”

Are 50 Shades of Grey behaviors learned in infancy?

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Ever wonder how someone could become attached to their early childhood abuser?

Ever wonder what underlying neurobiological conditions may account for the popularity of Fifty Shades of Grey?

This 2014 rodent study “Enduring good memories of infant trauma” linked below showed how trauma changed infants’ limbic system and lower brains. As adults, they derived a neurochemical benefit from re-experiencing the traumatic conditions:

“Trauma and pain experienced in infancy clearly led to higher rates of adult rat depression-like behavior..(but) the infant brain has limited ability to link trauma to fear areas in the brain, such as the amygdala.

These results are surprising because cues associated with trauma experienced as adults provoke fear and do not rescue depressive behavior.

It is possible that giving SSRI medications to children could be detrimental to mental health in adulthood,” Dr. Sullivan says. “We believe that our research offers the first evidence for the impact of serotonin pathways.

The infant trauma increases serotonin to produce brain programming of later life depression, and the infant trauma cue increases serotonin to alleviate the adult depressive like symptoms.”

As the study may apply to humans, let’s say that as an infant, someone was traumatized by a caregiver who, for example, bound them too tightly and left them alone for too long. What adult behaviors and other symptoms may develop as results? The person may:

  • Show depression-like symptoms that would strangely be alleviated by being bound tightly and left alone for an extended period.
  • Develop attachments to people who treated them poorly in a way that triggered them to re-experience their early childhood traumas.
  • Feel their mood lift when their infancy traumas were cued.
  • Be unable to explain and integrate with their cerebrum what was going on with their limbic system and lower brains.
  • Be caught in a circle of acting out their feelings and impulses, with unfulfilling results.

Isn’t it curious that this acting-out behavior – driven by unconscious memories of traumatic conditions – is a subject for popular entertainment? It may have resonated with personal experiences of the people who read the books and watched the movie.

What about people who want to be relieved of their symptomatic behavior? Is it a justifiable practice:

  • To pass affected people over to talk therapies that aren’t interested in directly treating the cause – a neurobiological condition that exists in the limbic system and lower brains – only the symptoms?
  • To drug affected people with the neurochemicals that their condition makes scarce – the symptoms – instead of addressing the source?

A principle of Dr. Arthur Janov’s Primal Therapy is that people are capable of treating their own originating neurobiological conditions. One of the therapeutic results is that the patient is relieved of being caught in endless circles of acting-out behavior.

That way we can have our own lives, and not be driven by what happened during early stages of our lives.

http://www.pnas.org/content/112/3/881.full “Enduring good memories of infant trauma: Rescue of adult neurobehavioral deficits via amygdala serotonin and corticosterone interaction”