Publications:
1. Ben-Yaakov G. and
Golan H. 2003. Cell proliferation in response to GABA in postnatal hippocampal
slice culture. Int. J. of Developmental Neurosci.
21(3): 153-157.
2. Golan H., Levav T., Mendelsohn A. and Huleihel
M. 2004. Involvement of tumor necrosis factor
alpha in hippocampal development and function. Cerebral Cortex,
14:97-105.
3. Golan H., Levav T., Huleihel M. 2004. Distinct
expression and distribution of vesicular proteins in the hippocampus of TNFa-deficient mice during development. Synapse.
53:6-10.
4. Levav T., Saar
T., Berkovitch L., Golan H. 2004. Perinatal exposure to
GABA-transaminase inhibitor impaired psychomotor
function in the developing and adult mouse. International
J. of Developmental Neuroscience. 22(3):137-147.
5. Huleihel M., Golan H. and Hallak
M. 2004. Systemic maternal infection/inflammation during pregnancy and
offspring brain damages. Reproductive Biology
and Endocrinology. 2(1):17-22.
6. Golan H.,
7. Golan H., Kashtutsky I., Hallak M.,
and Huleihel M. 2004. Maternal hypoxia during
pregnancy induces fetal neurodevelopmental brain
damage; protection by magnesium sulfate. J. of
Neuroscience Research. 78(3):430-441
8. Golan H., Lev V., Hallak M., Sorokin Y. and
Huleihel M. 2005. Specific neurodevelopmental damage in offspring following maternal inflammation during
pregnancy. Neuropharmacology. 48(6):903-917.
9. Gerstein M. Huleihel
M., Mane R., Stilman M., Kashtuzki
I, Hallak M., Golan H. 2005.
Remodeling of hippocampal GABAergic
system in adult offspring after maternal hypoxia and magnesium sulfate load: immuno-histo- chemical study. Experimental Neurology.
196:18-29.
10. Golan H., Huleihel M. 2005. Prenatal hypoxia effect on brain development –
short and long term consequences. Review in the Special Issue of Developmental
Science. ‘Hypoxia: An Acute, Chronic and Intermittent Challenge to
Cognitive Development’
11. Golan H, Lev, V, Mazar Y, Hallak M. Sorokin Y. and Huleihel
M. 2006. Alterations in behavior in
adult offspring following maternal inflammation during pregnancy. Developmental
Psychobiology. 48(2): 162-168.
12. Golan H., Stilman M., Lev V., and
Huleihel M. 2006. Normal aging of offspring
mice of mothers with induced inflammation during pregnancy. Neuroscience
141:1909-1918.
13. Louzoun-Kaplan V., Zuckerman M., Perez-Polo JR
and Golan, HM. 2008. Prenatal hypoxia down regulates the GABA
pathway in newborn mice cerebral cortex; partial protection by MgSO4.
International J. of Developmental Neuroscience. 26:77-85.
14. Levav T., Wirthaim O,
Grossman Y, Golan HM. 2008. Impaired synaptogenesis
and long-term modulation of behavior following neonatal elevation of GABA
levels in mice. Neuropharmacology.
54:387-398.
15. Bazak N, Kozlovsky N, Kaplan Z, Matar M, Golan H, Zohar
J, Richter-Levin G, Cohen H. 2009. Pre-pubertal stress exposure affects adult
behavioral response in association with changes in circulating corticosterone and brain-derived neurotrophic
factor. Psychoneuroendocrinology. 34(6):844-58.
16. Golan HM, Mane R, Molczadzki G, Zuckerman M, Kaplan- Louson
V, Huleihel M, Perez-Polo J. R. 2009. Impaired
migration signaling in the hippocampus following prenatal hypoxia. Neuropharmacology. 57: 511-522.
17. Haramati O, Mane R, Molczadzki G, Perez-Polo JR, Chalifa-Caspi V, Golan MH. 2009. Magnesium sulfate
treatment alters fetal cerebellar gene expression
responses to hypoxia. International J. of Developmental Neuroscience
28(2):207-216.
18. Levav-Rabkin T, Melamed O, Farber
M, Grossman Y, Golan HM. 2010.A sensitive
period of the inhibitory system to neonatal GABA enhancement in mice. Neuropsychopharmacology. 35(5):1138-1154.
19. Levav-Rabkin T, Blumkin E, Galron
D, Golan HM. Sex-dependent behavioral effects of Mthfr
deficiency and neonatal GABA potentiation in mice. Behav Brain
Res. 2011 Jan 20;216(2):505-13.
20. Blumkin E, Levav-Rabkin T, Melamed O., Galron D, Golan HM.
Gender-specific effect of MTHFR genotype and neonatal vigabatrin interaction on synaptic proteins in mouse cortex.
Neuropsychopharmacology, 2011 In Press.