Neural representations of ethologically relevant hand/mouth synergies in the human precentral gyrus

Complex motor responses are often thought to result from the combination of elemental movements represented at different neural sites. However, in monkeys, evidence indicates that some behaviors with critical ethological value, such as self-feeding, are represented as motor primitives in the precentral gyrus (PrG). In humans, such primitives have not yet been described. This could reflect well-known interspecies differences in the organization of sensorimotor regions (including PrG) or the difficulty of identifying complex neural representations in peroperative settings. To settle this alternative, we focused on the neural bases of hand/mouth synergies, a prominent example of human behavior with high ethological value. By recording motor- and somatosensory-evoked potentials in the PrG of patients undergoing brain surgery (2–60 y), we show that two complex nested neural representations can mediate hand/mouth actions within this structure: (i) a motor representation, resembling self-feeding, where electrical stimulation causes the closing hand to approach the opening mouth, and (ii) a motor–sensory representation, likely associated with perioral exploration, where cross-signal integration is accomplished at a cortical site that generates hand/arm actions while receiving mouth sensory inputs. The first finding extends to humans’ previous observations in monkeys. The second provides evidence that complex neural representations also exist for perioral exploration, a finely tuned skill requiring the combination of motor and sensory signals within a common control loop. These representations likely underlie the ability of human children and newborns to accurately produce coordinated hand/mouth movements, in an otherwise general context of motor immaturity.Since Penfield’s original work, it is commonly assumed that complex motor responses are produced by combining elemental movements that are independently represented at different neural sites (1). However, the generality of this model was recently challenged in nonhuman primates, where reaching, grasping, defensive, and hand/mouth movements have been found to be represented as complex motor primitives in independent circumscribed territories of the precentral gyrus (PrG) (2–4). To account for this observation, it was suggested that complex motor primitives have emerged during primate evolution to optimize the production of ethologically relevant behaviors (4). However, to date, direct evidence is lacking that such integrated representations of ethologically relevant movements also exist in humans. This may have two different origins.First, it could be that complex ethologically relevant representations exist in human PrG but have not yet been described, due to the difficulty of identifying neural representations associated with the expression of elaborate sensorimotor behaviors in peroperative contexts. With respect to this point, Penfield and other researchers have clearly reported complex multijoint motor responses following cortical stimulation (5–8), including concurrent movements of the hand and mouth (9). Nevertheless, these movements were not investigated systematically in several subjects, described in detail, or related to the existence of integrated neural representations for ethologically relevant behaviors. An obstacle to the investigation of these representations could have been the tendency to stop the stimulation following movement onset. This was explicitly acknowledged by Penfield in the following terms: “the stimulating electrode has frequently been removed at the first evidence of response, and thus the opportunity of producing more of the elaborate synergic responses may have been missed” (6).At a second level, it could be that the PrG does not contain functional representations of complex ethologically relevant behaviors in humans. This possibility is consistent with the existence of substantial dissimilarities in sensorimotor organization between human and nonhuman primates (10, 11). Interestingly, these dissimilarities are well documented for the precentral region mediating ethological synergies in monkeys. In this species, electrical stimulation in the rostral part of PrG evokes coordinated hand-to-mouth movements (12). These movements are part of the behavioral repertoire of the primate newborns (13), which is consistent with the observation that the rostral (phylogenetically oldest) part of PrG lacks cortico-motoneural cells and generates movements by recruiting the integrative mechanisms of the spinal cord through descending projections that are mature at birth (14). However, in human infants, the difficulty of evoking motor responses through electrical stimulation of the rostral PrG does not seem consistent with the existence of early mature descending projections (15, 16). Also, in adults, transcranial magnetic stimulation studies have suggested, in apparent contrast with monkey data, that late-maturing cortico-motoneural cells are present in the human rostral PrG (17, 18).The main aim of this study was to determine whether integrated neural representations of complex actions can be found in the human PrG. We investigated this possibility by studying the neural bases of hand/mouth synergies, a salient example of early and elaborate human behavior with high ethological value (19–21). To this end, motor and somatosensory mapping were combined in children and adult patients undergoing brain surgeries.     

Inactivation of AMPKα1 induces asthenozoospermia and alters spermatozoa morphology

AMP-activated protein kinase (AMPK), a key regulator of cellular energy homeostasis, is present in metabolic tissues (muscle and liver) and has been identified as a modulator of the female reproductive functions. However, its function in the testis has not yet been clearly defined. We have investigated the potential role of AMPK in male reproduction by using transgenic mice lacking the activity of AMPK catalytic subunit α1 gene [α1AMPK knockout (KO)]. In the testis, the α1AMPK subunit is expressed in germ cells and also in somatic cells (Sertoli and Leydig cells). α1AMPK KO male mice show a decrease in fertility, despite no clear alteration in the testis morphology or sperm production. However, in α1AMPK(-/-) mice, we demonstrate that spermatozoa have structural abnormalities and are less motile than in control mice. These spermatozoa alterations are associated with a 50% decrease in mitochondrial activity, a 60% decrease in basal oxygen consumption, and morphological defects. The α1AMPK KO male mice had high androgen levels associated with a 5- and 3-fold increase in intratesticular cholesterol and testosterone concentrations, respectively. High concentrations of proteins involved in steroid production (3β-hydroxysteroid dehydrogenase, cytochrome steroid 17 alpha-hydroxylase/17,20 lysate, and steroidogenic acute regulatory protein) were also detected in α1AMPK(-/-) testes. In the pituitary, the LH and FSH concentrations tended to be lower in α1AMPK(-/-) male mice, probably due to the negative feedback of the high testosterone levels. These results suggest that total α1AMPK deficiency in male mice affects androgen production and quality of spermatozoa, leading to a decrease in fertility.     

TWIK1, a unique background channel with variable ion selectivity

TWIK1 belongs to the family of background K(+) channels with two pore domains. In native and transfected cells, TWIK1 is detected mainly in recycling endosomes. In principal cells in the kidney, TWIK1 gene inactivation leads to the loss of a nonselective cationic conductance, an unexpected effect that was attributed to adaptive regulation of other channels. Here, we show that TWIK1 ion selectivity is modulated by extracellular pH. Although TWIK1 is K(+) selective at neutral pH, it becomes permeable to Na(+) at the acidic pH found in endosomes. Selectivity recovery is slow after restoration of a neutral pH. Such hysteresis makes plausible a role of TWIK1 as a background channel in which selectivity and resulting inhibitory or excitatory influences on cell excitability rely on its recycling rate between internal acidic stores and the plasma membrane. TWIK1(-/-) pancreatic β cells are more polarized than control cells, confirming a depolarizing role of TWIK1 in kidney and pancreatic cells.     

Bacteriophage T4 polynucleotide kinase triggers degradation of mRNAs

The bacteriophage T4-encoded RegB endoribonuclease is produced during the early stage of phage development and targets mostly (but not exclusively) the Shine-Dalgarno sequences of early genes. In this work, we show that the degradation of RegB-cleaved mRNAs depends on a functional T4 polynucleotide kinase/phosphatase (PNK). The 5'-OH produced by RegB cleavage is phosphorylated by the kinase activity of PNK. This modification allows host RNases G and E, with activity that is strongly stimulated by 5'-monophosphate termini, to attack mRNAs from the 5'-end, causing their destabilization. The PNK-dependent pathway of degradation becomes effective 5 min postinfection, consistent with our finding that several minutes are required for PNK to accumulate after infection. Our work emphasizes the importance of the nature of the 5' terminus for mRNA stability and depicts a pathway of mRNA degradation with 5'- to 3'-polarity in cells devoid of 5'-3' exonucleases. It also ascribes a role for T4 PNK during normal phage development.     

Border Cave and the beginning of the Later Stone Age in South Africa

The transition from the Middle Stone Age (MSA) to the Later Stone Age (LSA) in South Africa was not associated with the appearance of anatomically modern humans and the extinction of Neandertals, as in the Middle to Upper Paleolithic transition in Western Europe. It has therefore attracted less attention, yet it provides insights into patterns of technological evolution not associated with a new hominin. Data from Border Cave (KwaZulu-Natal) show a strong pattern of technological change at approximately 44-42 ka cal BP, marked by adoption of techniques and materials that were present but scarcely used in the previous MSA, and some novelties. The agent of change was neither a revolution nor the advent of a new species of human. Although most evident in personal ornaments and symbolic markings, the change from one way of living to another was not restricted to aesthetics. Our analysis shows that: (i) at Border Cave two assemblages, dated to 45-49 and >49 ka, show a gradual abandonment of the technology and tool types of the post-Howiesons Poort period and can be considered transitional industries; (ii) the 44-42 ka cal BP assemblages are based on an expedient technology dominated by bipolar knapping, with microliths hafted with pitch from Podocarpus bark, worked suid tusks, ostrich eggshell beads, bone arrowheads, engraved bones, bored stones, and digging sticks; (iii) these assemblages mark the beginning of the LSA in South Africa; (iv) the LSA emerged by internal evolution; and (v) the process of change began sometime after 56 ka.     

Cardioprotection by clopidogrel in acute ST-elevated myocardial infarction patients: a retrospective analysis

Antiplatelet agents have been extensively used in acute coronary syndromes and improve clinical outcome in STEMI patients. Previous experimental studies of the impact of antiplatelet agents on infarct size have been equivoqual. We questioned whether clopidogrel might reduce infarct size in STEMI patients, independently of any antithrombotic effect, by activating a post-conditioning-like myocardial protection. We retrospectively analyzed three recent controlled, randomized, proof of concept clinical trials aimed at determining whether PCI post-conditioning might attenuated infarct size in STEMI. We addressed whether clopidogrel (300-600?mg before angioplasty) might have influenced infarct size using a multivariable linear regression analysis with infarct size as the continuous outcome variable and age, clopidogrel and GP IIb/IIIa inhibitors, post-conditioning, area at risk, ischemia time, coronary thrombectomy and final TIMI flow, as covariates. In this population of 88 STEMI patients, ischemic post-conditioning and clopidogrel administration were the only two therapeutic independent predictors of the final infarct size as determined by cardiac enzymes release (p?=?0.005 and p?相似文献   

Fractionated doses of gemtuzumab ozogamicin with escalated doses of daunorubicin and cytarabine as first acute myeloid leukemia salvage in patients aged 50-70-year old: a phase 1/2 study of the acute leukemia French association

This Phase 1/2 study aimed to determine optimal doses of daunorubicin (DNR; mg/m²) and cytarabine (mg/m²) to be combined with fractionated doses of gemtuzumab ozogamicin (GO, Mylotarg®; 3 mg/m² on day 1, 4, and 7) satisfying safety requirements. Three dose levels of DNR/AraC were investigated namely (45, 100), (60, 100), and (60, 200). Patients included were acute myeloid leukemia in first relapse, aged 50–70 years. Hematological recovery was 31 days for neutrophil and 32 days for platelet counts. A documented infectious episode > Grade 2 occurred in 11/20 patients (55%). None of the 20 patients had signs of veno‐occlusive disease. Overall, eleven patients reached complete remission (CR), two CR with incomplete platelets recovery. The results showed that combination of fractionated GO doses with DNR at 60 mg/m²/d for 3 days and cytarabine at 200 mg/m²/d for 7 days is tolerable and could be further investigated in the front‐line therapy. Am. J. Hematol., 2012. © 2011 Wiley Periodicals, Inc.